From emergency caller localisation to monitoring senior citizens, according to the European GNSS Agency (GSA), space-based technologies are already improving our health and safety and are set to see increasing use in the near future.
Space solutions can play a significant role in addressing a number of key health and safety-related challenges currently facing society. From emergency caller location to the monitoring of elderly patients, Europe’s global navigation satellite systems (GNSS) and Earth observation programmes – including Galileo, the European Geostationary Navigation Overlay Service (EGNOS) and Copernicus – are already having a substantial impact on our health and safety. Furthermore, according to the European GNSS Agency (GSA), their role will only increase in the near future.
For instance, one area where GNSS and medical technology are increasingly working together is in the Internet of Things (IoT) or, in this case, the ‘Internet of Medical Things’. According to semiconductor manufacturer ARM Director of Healthcare and Emerging Technologies Karthik Ranjan, accurate positioning data can enable better management of resources while also reducing costs.
Ranjan predicts that by 2020 we will see a “tsunami of healthcare devices” come to market, with around 1.5 billion personal sensors being used to monitor the continuum of health – including blood, sweat and urine analysis. “The combination of remote sensing and smartphone communication could help change behaviour and enable people to make better lifestyle choices,” he says.
He also predicts that such systems will reduce the need to visit a doctor or hospital for a vast majority of medical cases. “Sharing such health data as your glucose status for a diabetic with your trusted social networks can reduce costs and improve prevention of diabetic episodes,” he adds.
As Europe’s population continues to age, the so-called ‘Silver Economy’ will also be an impetus for the development of GNSS-enhanced medical and healthcare related devices and services. “Although we are living longer than ever before, we haven’t yet taken the necessary steps to ensure that these added years are healthy years,” says STMicroelectronics’ Mustapha Bouraoui. “What we need are solutions that promote autonomy, regular activity and general health for our senior citizens.”
Bouraoui believes that IoT will have a major impact here. For example, his company is currently involved with the Alliance for Internet of Things Innovation (AIOTI), an EU initiative aimed at building the European IoT ecosystem and one that the GSA is actively involved with. The AIOTI is already supporting some large-scale demonstrations, including five pilot projects on smart living environments for an ageing population and wearable devices for smart ecosystems.
Another area where GNSS can play an important role in the healthcare arena is with applications for tracking vulnerable people – such as those suffering from Alzheimer’s disease. “Within the health and social care sectors, there is a need for the technology to be ‘invisible’, easy to use and cheap in order to enable universal safety and security for citizens,” says Satsafe Limited’s Stuart Millward. “Location-aware, multi-sensing devices could, for example, provide a radically lower cost monitoring solution for senior citizens and other vulnerable groups and has the potential to significantly reduce avoidable hospital admissions.”
An example of what these tracking devices could look like can be seen in what’s happening at Weenect. The company produces small devices that come with a smartphone app that allows for simultaneous tracking of up to four trackers. The service also establishes geo-fencing areas and alerts users if the tracked subject leaves the defined area. Some devices also include an ‘SOS’ button and voice call – a useful addition for senior citizens.
In addition to their role in medical care and healthy living, GNSS and Earth observation are also having an impact on emergency response. This is particularly true when it comes to both mitigating against and responding to natural disasters. For example, the FP7 FLOODIS project has developed a cloud and mobile based flood information and management system. The project makes use of both Earth observation and EGNOS to provide an accurate disaster alert and information service, in particular for short-term flood forecasting. With the addition of Galileo in the near future, project coordinators look to add more fully integrated social media information in order to improve the system’s flood prediction models.
The FLOODIS approach is also being extended to other emergency scenarios via the Horizon 2020 I-REACT project.
Another example of the important role that European GNSS plays in emergency response can be found in the aviation sector. Here, EGNOS is helping emergency response helicopters fly into difficult conditions – thus saving more lives. The Pildo Labs’ 5 LIVES project is currently demonstrating Point in Space (PinS) procedures for helicopters using EGNOS’ robust positioning data in order to enable flight in almost all visibility conditions. The project intends to demonstrate the procedures in five specific scenarios: hospital emergency services, landing approaches in challenging (mountainous) environments, firefighting helicopters, maritime search and rescue, and emergency teams monitoring and helicopter EVAC.
It’s a bird, it’s a plane it’s – a UAVThe use of Unmanned Aerial Vehicles (UAVs) for telemedicine applications is a rapidly developing field. They can play a crucial role in delivery, monitoring, and search and rescue activities. As UAVs are capable of operating in hazardous environments, they are capable of rapidly responding into areas where human first responders may not be able to venture. |
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
From emergency caller localisation to monitoring senior citizens, according to the European GNSS Agency (GSA), space-based technologies are already improving our health and safety and are set to see increasing use in the near future.
Space solutions can play a significant role in addressing a number of key health and safety-related challenges currently facing society. From emergency caller location to the monitoring of elderly patients, Europe’s global navigation satellite systems (GNSS) and Earth observation programmes – including Galileo, the European Geostationary Navigation Overlay Service (EGNOS) and Copernicus – are already having a substantial impact on our health and safety. Furthermore, according to the European GNSS Agency (GSA), their role will only increase in the near future.
For instance, one area where GNSS and medical technology are increasingly working together is in the Internet of Things (IoT) or, in this case, the ‘Internet of Medical Things’. According to semiconductor manufacturer ARM Director of Healthcare and Emerging Technologies Karthik Ranjan, accurate positioning data can enable better management of resources while also reducing costs.
Ranjan predicts that by 2020 we will see a “tsunami of healthcare devices” come to market, with around 1.5 billion personal sensors being used to monitor the continuum of health – including blood, sweat and urine analysis. “The combination of remote sensing and smartphone communication could help change behaviour and enable people to make better lifestyle choices,” he says.
He also predicts that such systems will reduce the need to visit a doctor or hospital for a vast majority of medical cases. “Sharing such health data as your glucose status for a diabetic with your trusted social networks can reduce costs and improve prevention of diabetic episodes,” he adds.
As Europe’s population continues to age, the so-called ‘Silver Economy’ will also be an impetus for the development of GNSS-enhanced medical and healthcare related devices and services. “Although we are living longer than ever before, we haven’t yet taken the necessary steps to ensure that these added years are healthy years,” says STMicroelectronics’ Mustapha Bouraoui. “What we need are solutions that promote autonomy, regular activity and general health for our senior citizens.”
Bouraoui believes that IoT will have a major impact here. For example, his company is currently involved with the Alliance for Internet of Things Innovation (AIOTI), an EU initiative aimed at building the European IoT ecosystem and one that the GSA is actively involved with. The AIOTI is already supporting some large-scale demonstrations, including five pilot projects on smart living environments for an ageing population and wearable devices for smart ecosystems.
Another area where GNSS can play an important role in the healthcare arena is with applications for tracking vulnerable people – such as those suffering from Alzheimer’s disease. “Within the health and social care sectors, there is a need for the technology to be ‘invisible’, easy to use and cheap in order to enable universal safety and security for citizens,” says Satsafe Limited’s Stuart Millward. “Location-aware, multi-sensing devices could, for example, provide a radically lower cost monitoring solution for senior citizens and other vulnerable groups and has the potential to significantly reduce avoidable hospital admissions.”
An example of what these tracking devices could look like can be seen in what’s happening at Weenect. The company produces small devices that come with a smartphone app that allows for simultaneous tracking of up to four trackers. The service also establishes geo-fencing areas and alerts users if the tracked subject leaves the defined area. Some devices also include an ‘SOS’ button and voice call – a useful addition for senior citizens.
In addition to their role in medical care and healthy living, GNSS and Earth observation are also having an impact on emergency response. This is particularly true when it comes to both mitigating against and responding to natural disasters. For example, the FP7 FLOODIS project has developed a cloud and mobile based flood information and management system. The project makes use of both Earth observation and EGNOS to provide an accurate disaster alert and information service, in particular for short-term flood forecasting. With the addition of Galileo in the near future, project coordinators look to add more fully integrated social media information in order to improve the system’s flood prediction models.
The FLOODIS approach is also being extended to other emergency scenarios via the Horizon 2020 I-REACT project.
Another example of the important role that European GNSS plays in emergency response can be found in the aviation sector. Here, EGNOS is helping emergency response helicopters fly into difficult conditions – thus saving more lives. The Pildo Labs’ 5 LIVES project is currently demonstrating Point in Space (PinS) procedures for helicopters using EGNOS’ robust positioning data in order to enable flight in almost all visibility conditions. The project intends to demonstrate the procedures in five specific scenarios: hospital emergency services, landing approaches in challenging (mountainous) environments, firefighting helicopters, maritime search and rescue, and emergency teams monitoring and helicopter EVAC.
It’s a bird, it’s a plane it’s – a UAVThe use of Unmanned Aerial Vehicles (UAVs) for telemedicine applications is a rapidly developing field. They can play a crucial role in delivery, monitoring, and search and rescue activities. As UAVs are capable of operating in hazardous environments, they are capable of rapidly responding into areas where human first responders may not be able to venture. |
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
From emergency caller localisation to monitoring senior citizens, according to the European GNSS Agency (GSA), space-based technologies are already improving our health and safety and are set to see increasing use in the near future.
Space solutions can play a significant role in addressing a number of key health and safety-related challenges currently facing society. From emergency caller location to the monitoring of elderly patients, Europe’s global navigation satellite systems (GNSS) and Earth observation programmes – including Galileo, the European Geostationary Navigation Overlay Service (EGNOS) and Copernicus – are already having a substantial impact on our health and safety. Furthermore, according to the European GNSS Agency (GSA), their role will only increase in the near future.
For instance, one area where GNSS and medical technology are increasingly working together is in the Internet of Things (IoT) or, in this case, the ‘Internet of Medical Things’. According to semiconductor manufacturer ARM Director of Healthcare and Emerging Technologies Karthik Ranjan, accurate positioning data can enable better management of resources while also reducing costs.
Ranjan predicts that by 2020 we will see a “tsunami of healthcare devices” come to market, with around 1.5 billion personal sensors being used to monitor the continuum of health – including blood, sweat and urine analysis. “The combination of remote sensing and smartphone communication could help change behaviour and enable people to make better lifestyle choices,” he says.
He also predicts that such systems will reduce the need to visit a doctor or hospital for a vast majority of medical cases. “Sharing such health data as your glucose status for a diabetic with your trusted social networks can reduce costs and improve prevention of diabetic episodes,” he adds.
As Europe’s population continues to age, the so-called ‘Silver Economy’ will also be an impetus for the development of GNSS-enhanced medical and healthcare related devices and services. “Although we are living longer than ever before, we haven’t yet taken the necessary steps to ensure that these added years are healthy years,” says STMicroelectronics’ Mustapha Bouraoui. “What we need are solutions that promote autonomy, regular activity and general health for our senior citizens.”
Bouraoui believes that IoT will have a major impact here. For example, his company is currently involved with the Alliance for Internet of Things Innovation (AIOTI), an EU initiative aimed at building the European IoT ecosystem and one that the GSA is actively involved with. The AIOTI is already supporting some large-scale demonstrations, including five pilot projects on smart living environments for an ageing population and wearable devices for smart ecosystems.
Another area where GNSS can play an important role in the healthcare arena is with applications for tracking vulnerable people – such as those suffering from Alzheimer’s disease. “Within the health and social care sectors, there is a need for the technology to be ‘invisible’, easy to use and cheap in order to enable universal safety and security for citizens,” says Satsafe Limited’s Stuart Millward. “Location-aware, multi-sensing devices could, for example, provide a radically lower cost monitoring solution for senior citizens and other vulnerable groups and has the potential to significantly reduce avoidable hospital admissions.”
An example of what these tracking devices could look like can be seen in what’s happening at Weenect. The company produces small devices that come with a smartphone app that allows for simultaneous tracking of up to four trackers. The service also establishes geo-fencing areas and alerts users if the tracked subject leaves the defined area. Some devices also include an ‘SOS’ button and voice call – a useful addition for senior citizens.
In addition to their role in medical care and healthy living, GNSS and Earth observation are also having an impact on emergency response. This is particularly true when it comes to both mitigating against and responding to natural disasters. For example, the FP7 FLOODIS project has developed a cloud and mobile based flood information and management system. The project makes use of both Earth observation and EGNOS to provide an accurate disaster alert and information service, in particular for short-term flood forecasting. With the addition of Galileo in the near future, project coordinators look to add more fully integrated social media information in order to improve the system’s flood prediction models.
The FLOODIS approach is also being extended to other emergency scenarios via the Horizon 2020 I-REACT project.
Another example of the important role that European GNSS plays in emergency response can be found in the aviation sector. Here, EGNOS is helping emergency response helicopters fly into difficult conditions – thus saving more lives. The Pildo Labs’ 5 LIVES project is currently demonstrating Point in Space (PinS) procedures for helicopters using EGNOS’ robust positioning data in order to enable flight in almost all visibility conditions. The project intends to demonstrate the procedures in five specific scenarios: hospital emergency services, landing approaches in challenging (mountainous) environments, firefighting helicopters, maritime search and rescue, and emergency teams monitoring and helicopter EVAC.
It’s a bird, it’s a plane it’s – a UAVThe use of Unmanned Aerial Vehicles (UAVs) for telemedicine applications is a rapidly developing field. They can play a crucial role in delivery, monitoring, and search and rescue activities. As UAVs are capable of operating in hazardous environments, they are capable of rapidly responding into areas where human first responders may not be able to venture. |
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
From emergency caller localisation to monitoring senior citizens, according to the European GNSS Agency (GSA), space-based technologies are already improving our health and safety and are set to see increasing use in the near future.
Space solutions can play a significant role in addressing a number of key health and safety-related challenges currently facing society. From emergency caller location to the monitoring of elderly patients, Europe’s global navigation satellite systems (GNSS) and Earth observation programmes – including Galileo, the European Geostationary Navigation Overlay Service (EGNOS) and Copernicus – are already having a substantial impact on our health and safety. Furthermore, according to the European GNSS Agency (GSA), their role will only increase in the near future.
For instance, one area where GNSS and medical technology are increasingly working together is in the Internet of Things (IoT) or, in this case, the ‘Internet of Medical Things’. According to semiconductor manufacturer ARM Director of Healthcare and Emerging Technologies Karthik Ranjan, accurate positioning data can enable better management of resources while also reducing costs.
Ranjan predicts that by 2020 we will see a “tsunami of healthcare devices” come to market, with around 1.5 billion personal sensors being used to monitor the continuum of health – including blood, sweat and urine analysis. “The combination of remote sensing and smartphone communication could help change behaviour and enable people to make better lifestyle choices,” he says.
He also predicts that such systems will reduce the need to visit a doctor or hospital for a vast majority of medical cases. “Sharing such health data as your glucose status for a diabetic with your trusted social networks can reduce costs and improve prevention of diabetic episodes,” he adds.
As Europe’s population continues to age, the so-called ‘Silver Economy’ will also be an impetus for the development of GNSS-enhanced medical and healthcare related devices and services. “Although we are living longer than ever before, we haven’t yet taken the necessary steps to ensure that these added years are healthy years,” says STMicroelectronics’ Mustapha Bouraoui. “What we need are solutions that promote autonomy, regular activity and general health for our senior citizens.”
Bouraoui believes that IoT will have a major impact here. For example, his company is currently involved with the Alliance for Internet of Things Innovation (AIOTI), an EU initiative aimed at building the European IoT ecosystem and one that the GSA is actively involved with. The AIOTI is already supporting some large-scale demonstrations, including five pilot projects on smart living environments for an ageing population and wearable devices for smart ecosystems.
Another area where GNSS can play an important role in the healthcare arena is with applications for tracking vulnerable people – such as those suffering from Alzheimer’s disease. “Within the health and social care sectors, there is a need for the technology to be ‘invisible’, easy to use and cheap in order to enable universal safety and security for citizens,” says Satsafe Limited’s Stuart Millward. “Location-aware, multi-sensing devices could, for example, provide a radically lower cost monitoring solution for senior citizens and other vulnerable groups and has the potential to significantly reduce avoidable hospital admissions.”
An example of what these tracking devices could look like can be seen in what’s happening at Weenect. The company produces small devices that come with a smartphone app that allows for simultaneous tracking of up to four trackers. The service also establishes geo-fencing areas and alerts users if the tracked subject leaves the defined area. Some devices also include an ‘SOS’ button and voice call – a useful addition for senior citizens.
In addition to their role in medical care and healthy living, GNSS and Earth observation are also having an impact on emergency response. This is particularly true when it comes to both mitigating against and responding to natural disasters. For example, the FP7 FLOODIS project has developed a cloud and mobile based flood information and management system. The project makes use of both Earth observation and EGNOS to provide an accurate disaster alert and information service, in particular for short-term flood forecasting. With the addition of Galileo in the near future, project coordinators look to add more fully integrated social media information in order to improve the system’s flood prediction models.
The FLOODIS approach is also being extended to other emergency scenarios via the Horizon 2020 I-REACT project.
Another example of the important role that European GNSS plays in emergency response can be found in the aviation sector. Here, EGNOS is helping emergency response helicopters fly into difficult conditions – thus saving more lives. The Pildo Labs’ 5 LIVES project is currently demonstrating Point in Space (PinS) procedures for helicopters using EGNOS’ robust positioning data in order to enable flight in almost all visibility conditions. The project intends to demonstrate the procedures in five specific scenarios: hospital emergency services, landing approaches in challenging (mountainous) environments, firefighting helicopters, maritime search and rescue, and emergency teams monitoring and helicopter EVAC.
It’s a bird, it’s a plane it’s – a UAVThe use of Unmanned Aerial Vehicles (UAVs) for telemedicine applications is a rapidly developing field. They can play a crucial role in delivery, monitoring, and search and rescue activities. As UAVs are capable of operating in hazardous environments, they are capable of rapidly responding into areas where human first responders may not be able to venture. |
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) has formally accepted the new Loyola de Palacio facility, which houses the European GNSS Service Centre (GSC), from the Spanish government – a key milestone towards the declaration of Galileo Initial Services.
Recently, the European GNSS Agency (GSA) formally accepted the new Loyola de Palacio facility, which houses the European GNSS Service Centre (GSC), from the Spanish government. This handover represents a significant milestone in the development of the Galileo programme and its service provisions, which is scheduled to begin later this year with the declaration of Initial Services.
“The GSC is a key asset for the Galileo programme; it is Galileo's door to the GNSS world,” said GSA Executive Director Carlo des Dorides. “Today, the GSA is pleased to accept this excellent facility from Spain. It is a symbol of the upcoming service phase and the single, unique interface for Galileo users.”
“Carlo des Dorides has been on board the Galileo programme from the beginning. He has played a consistent role in taking the programme forward, and his re-election as GSA Executive Director by unanimity was not by chance,” added Spanish Secretary General for Transport, Carmen Librero Pintado. “Rest assured, Spain will always be side-by-side with you.”
Ignacio Azqueta Ortiz, Director General of Spain’s National Institute for Aerospace Technology (INTA) said, “With this handover and the milestones to be reached in the near future, we look forward to continuing our tradition of collaboration with the GSA and working together towards the success of the Galileo programme.”
In his concluding remarks, Spanish Secretary of Defence Pedro Arguelles Salaverria underlined, “Now more than ever, Europe must show the world its strengths, and Galileo is one of them. Spain underlines its strong support of Europe and Galileo.”
By delegation from the European Commission, the GSA is charged with overseeing the operation and service provision for both the European Geostationary Navigation Overlay Service (EGNOS) (since 2015) and Galileo (as of 2017), along with managing the security accreditation and general security provision for both programmes. The GSA has been fully responsible for the GSC since its inception in 2014, a responsibility that includes serving as the GSC design authority, managing the GSC nucleus’ (GSC-n) operations and overseeing preparation contracts on infrastructure, operations and hosting service provision for the fully-fledged GSC (v1).
Ignacio Azqueta Ortiz, Director General of INTA, Carmen Librero Pintado, Secretary General for Transport, Pedro Argüelles Salaverría, Secretary of State for Defence, Carlo des Dorides, Executive Director, European GNSS Agency (GSA), Begoña Cristeto, Secretary General of Industry (click to enlarge)
Under the hosting agreement between the European Commission and Spain, INTA served as the hosting entity, with the Spanish government providing the site as an in-kind contribution. The GSC offers over 1,100 square metres of space, is home to some of the programme’s most state-of-the-art technology, and employees over 40 people
Since 2013, the GSC-n has been providing limited services and working as a precursor to GSC v1. Its key work includes supporting the lead up to the Galileo Initial Services provision, along with operating the GSC Helpdesk, disseminating orbital products to the Search and Rescue (SAR) community, supporting GNSS-related R&D and industry and monitoring user satisfaction. Once operational, GSC v1 will be connected to the Galileo core system, thus enabling the Commercial Service. It is expected to enter operations by mid-2017.
The GSA is unique in that is one of the EU’s only multi-site agencies. With its headquarters in Prague, it also will run operational sites in the Netherlands, France, and the UK. With the handover of the Loyola de Palacio facility, it now adds Spain to this list. Each of the sites has its own specific function and will be staffed by specialists from the GSA and its contractors. Once the Galileo Operations Contract is awarded and Initial Services officially declared, the GSC is expected to see an increase in staff.
The site acceptance meeting was attended by representatives from the Spanish departments of defence, transport and industry, among others. Attendees were also given an overview presentation on the GSC’s role within the Galileo programme, along with a tour of the facilities.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) has formally accepted the new Loyola de Palacio facility, which houses the European GNSS Service Centre (GSC), from the Spanish government – a key milestone towards the declaration of Galileo Initial Services.
Recently, the European GNSS Agency (GSA) formally accepted the new Loyola de Palacio facility, which houses the European GNSS Service Centre (GSC), from the Spanish government. This handover represents a significant milestone in the development of the Galileo programme and its service provisions, which is scheduled to begin later this year with the declaration of Initial Services.
“The GSC is a key asset for the Galileo programme; it is Galileo's door to the GNSS world,” said GSA Executive Director Carlo des Dorides. “Today, the GSA is pleased to accept this excellent facility from Spain. It is a symbol of the upcoming service phase and the single, unique interface for Galileo users.”
“Carlo des Dorides has been on board the Galileo programme from the beginning. He has played a consistent role in taking the programme forward, and his re-election as GSA Executive Director by unanimity was not by chance,” added Spanish Secretary General for Transport, Carmen Librero Pintado. “Rest assured, Spain will always be side-by-side with you.”
Ignacio Azqueta Ortiz, Director General of Spain’s National Institute for Aerospace Technology (INTA) said, “With this handover and the milestones to be reached in the near future, we look forward to continuing our tradition of collaboration with the GSA and working together towards the success of the Galileo programme.”
In his concluding remarks, Spanish Secretary of Defence Pedro Arguelles Salaverria underlined, “Now more than ever, Europe must show the world its strengths, and Galileo is one of them. Spain underlines its strong support of Europe and Galileo.”
By delegation from the European Commission, the GSA is charged with overseeing the operation and service provision for both the European Geostationary Navigation Overlay Service (EGNOS) (since 2015) and Galileo (as of 2017), along with managing the security accreditation and general security provision for both programmes. The GSA has been fully responsible for the GSC since its inception in 2014, a responsibility that includes serving as the GSC design authority, managing the GSC nucleus’ (GSC-n) operations and overseeing preparation contracts on infrastructure, operations and hosting service provision for the fully-fledged GSC (v1).
Ignacio Azqueta Ortiz, Director General of INTA, Carmen Librero Pintado, Secretary General for Transport, Pedro Argüelles Salaverría, Secretary of State for Defence, Carlo des Dorides, Executive Director, European GNSS Agency (GSA), Begoña Cristeto, Secretary General of Industry (click to enlarge)
Under the hosting agreement between the European Commission and Spain, INTA served as the hosting entity, with the Spanish government providing the site as an in-kind contribution. The GSC offers over 1,100 square metres of space, is home to some of the programme’s most state-of-the-art technology, and employees over 40 people
Since 2013, the GSC-n has been providing limited services and working as a precursor to GSC v1. Its key work includes supporting the lead up to the Galileo Initial Services provision, along with operating the GSC Helpdesk, disseminating orbital products to the Search and Rescue (SAR) community, supporting GNSS-related R&D and industry and monitoring user satisfaction. Once operational, GSC v1 will be connected to the Galileo core system, thus enabling the Commercial Service. It is expected to enter operations by mid-2017.
The GSA is unique in that is one of the EU’s only multi-site agencies. With its headquarters in Prague, it also will run operational sites in the Netherlands, France, and the UK. With the handover of the Loyola de Palacio facility, it now adds Spain to this list. Each of the sites has its own specific function and will be staffed by specialists from the GSA and its contractors. Once the Galileo Operations Contract is awarded and Initial Services officially declared, the GSC is expected to see an increase in staff.
The site acceptance meeting was attended by representatives from the Spanish departments of defence, transport and industry, among others. Attendees were also given an overview presentation on the GSC’s role within the Galileo programme, along with a tour of the facilities.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) has formally accepted the new Loyola de Palacio facility, which houses the European GNSS Service Centre (GSC), from the Spanish government – a key milestone towards the declaration of Galileo Initial Services.
Recently, the European GNSS Agency (GSA) formally accepted the new Loyola de Palacio facility, which houses the European GNSS Service Centre (GSC), from the Spanish government. This handover represents a significant milestone in the development of the Galileo programme and its service provisions, which is scheduled to begin later this year with the declaration of Initial Services.
“The GSC is a key asset for the Galileo programme; it is Galileo's door to the GNSS world,” said GSA Executive Director Carlo des Dorides. “Today, the GSA is pleased to accept this excellent facility from Spain. It is a symbol of the upcoming service phase and the single, unique interface for Galileo users.”
“Carlo des Dorides has been on board the Galileo programme from the beginning. He has played a consistent role in taking the programme forward, and his re-election as GSA Executive Director by unanimity was not by chance,” added Spanish Secretary General for Transport, Carmen Librero Pintado. “Rest assured, Spain will always be side-by-side with you.”
Ignacio Azqueta Ortiz, Director General of Spain’s National Institute for Aerospace Technology (INTA) said, “With this handover and the milestones to be reached in the near future, we look forward to continuing our tradition of collaboration with the GSA and working together towards the success of the Galileo programme.”
In his concluding remarks, Spanish Secretary of Defence Pedro Arguelles Salaverria underlined, “Now more than ever, Europe must show the world its strengths, and Galileo is one of them. Spain underlines its strong support of Europe and Galileo.”
By delegation from the European Commission, the GSA is charged with overseeing the operation and service provision for both the European Geostationary Navigation Overlay Service (EGNOS) (since 2015) and Galileo (as of 2017), along with managing the security accreditation and general security provision for both programmes. The GSA has been fully responsible for the GSC since its inception in 2014, a responsibility that includes serving as the GSC design authority, managing the GSC nucleus’ (GSC-n) operations and overseeing preparation contracts on infrastructure, operations and hosting service provision for the fully-fledged GSC (v1).
Ignacio Azqueta Ortiz, Director General of INTA, Carmen Librero Pintado, Secretary General for Transport, Pedro Argüelles Salaverría, Secretary of State for Defence, Carlo des Dorides, Executive Director, European GNSS Agency (GSA), Begoña Cristeto, Secretary General of Industry (click to enlarge)
Under the hosting agreement between the European Commission and Spain, INTA served as the hosting entity, with the Spanish government providing the site as an in-kind contribution. The GSC offers over 1,100 square metres of space, is home to some of the programme’s most state-of-the-art technology, and employees over 40 people
Since 2013, the GSC-n has been providing limited services and working as a precursor to GSC v1. Its key work includes supporting the lead up to the Galileo Initial Services provision, along with operating the GSC Helpdesk, disseminating orbital products to the Search and Rescue (SAR) community, supporting GNSS-related R&D and industry and monitoring user satisfaction. Once operational, GSC v1 will be connected to the Galileo core system, thus enabling the Commercial Service. It is expected to enter operations by mid-2017.
The GSA is unique in that is one of the EU’s only multi-site agencies. With its headquarters in Prague, it also will run operational sites in the Netherlands, France, and the UK. With the handover of the Loyola de Palacio facility, it now adds Spain to this list. Each of the sites has its own specific function and will be staffed by specialists from the GSA and its contractors. Once the Galileo Operations Contract is awarded and Initial Services officially declared, the GSC is expected to see an increase in staff.
The site acceptance meeting was attended by representatives from the Spanish departments of defence, transport and industry, among others. Attendees were also given an overview presentation on the GSC’s role within the Galileo programme, along with a tour of the facilities.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) has formally accepted the new Loyola de Palacio facility, which houses the European GNSS Service Centre (GSC), from the Spanish government – a key milestone towards the declaration of Galileo Initial Services.
Recently, the European GNSS Agency (GSA) formally accepted the new Loyola de Palacio facility, which houses the European GNSS Service Centre (GSC), from the Spanish government. This handover represents a significant milestone in the development of the Galileo programme and its service provisions, which is scheduled to begin later this year with the declaration of Initial Services.
“The GSC is a key asset for the Galileo programme; it is Galileo's door to the GNSS world,” said GSA Executive Director Carlo des Dorides. “Today, the GSA is pleased to accept this excellent facility from Spain. It is a symbol of the upcoming service phase and the single, unique interface for Galileo users.”
“Carlo des Dorides has been on board the Galileo programme from the beginning. He has played a consistent role in taking the programme forward, and his re-election as GSA Executive Director by unanimity was not by chance,” added Spanish Secretary General for Transport, Carmen Librero Pintado. “Rest assured, Spain will always be side-by-side with you.”
Ignacio Azqueta Ortiz, Director General of Spain’s National Institute for Aerospace Technology (INTA) said, “With this handover and the milestones to be reached in the near future, we look forward to continuing our tradition of collaboration with the GSA and working together towards the success of the Galileo programme.”
In his concluding remarks, Spanish Secretary of Defence Pedro Arguelles Salaverria underlined, “Now more than ever, Europe must show the world its strengths, and Galileo is one of them. Spain underlines its strong support of Europe and Galileo.”
By delegation from the European Commission, the GSA is charged with overseeing the operation and service provision for both the European Geostationary Navigation Overlay Service (EGNOS) (since 2015) and Galileo (as of 2017), along with managing the security accreditation and general security provision for both programmes. The GSA has been fully responsible for the GSC since its inception in 2014, a responsibility that includes serving as the GSC design authority, managing the GSC nucleus’ (GSC-n) operations and overseeing preparation contracts on infrastructure, operations and hosting service provision for the fully-fledged GSC (v1).
Ignacio Azqueta Ortiz, Director General of INTA, Carmen Librero Pintado, Secretary General for Transport, Pedro Argüelles Salaverría, Secretary of State for Defence, Carlo des Dorides, Executive Director, European GNSS Agency (GSA), Begoña Cristeto, Secretary General of Industry (click to enlarge)
Under the hosting agreement between the European Commission and Spain, INTA served as the hosting entity, with the Spanish government providing the site as an in-kind contribution. The GSC offers over 1,100 square metres of space, is home to some of the programme’s most state-of-the-art technology, and employees over 40 people
Since 2013, the GSC-n has been providing limited services and working as a precursor to GSC v1. Its key work includes supporting the lead up to the Galileo Initial Services provision, along with operating the GSC Helpdesk, disseminating orbital products to the Search and Rescue (SAR) community, supporting GNSS-related R&D and industry and monitoring user satisfaction. Once operational, GSC v1 will be connected to the Galileo core system, thus enabling the Commercial Service. It is expected to enter operations by mid-2017.
The GSA is unique in that is one of the EU’s only multi-site agencies. With its headquarters in Prague, it also will run operational sites in the Netherlands, France, and the UK. With the handover of the Loyola de Palacio facility, it now adds Spain to this list. Each of the sites has its own specific function and will be staffed by specialists from the GSA and its contractors. Once the Galileo Operations Contract is awarded and Initial Services officially declared, the GSC is expected to see an increase in staff.
The site acceptance meeting was attended by representatives from the Spanish departments of defence, transport and industry, among others. Attendees were also given an overview presentation on the GSC’s role within the Galileo programme, along with a tour of the facilities.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) highlights how the combination of GNSS and Earth observation services mean increased benefits for geospatial applications.
As part of its recent annual congress, the International Society for Photogrammetry and Remote Sensing (ISPRS) held a special session on Galileo and Copernicus and their role in geospatial land applications. The session, jointly organised by the European GNSS Agency (GSA), the European Environmental Agency (EEA) and the Horizon 2020 funded LARA project, drew over 70 participants.
A common theme of the session was a general need for a stronger connection between GNSS-generated geospatial data and remote sensing applications and services, including its relevant stakeholders. To demonstrate why, presenters emphasised the added value that geolocation and earth observation services offer when they work together.
Also read: Galileo and EGNOS benefiting the Geospatial World
“The successful launch of Sentinel-2, along with Earth observation’s increasing capacity to use Very High Resolution sensors, are providing a boost to the European remote sensing industry,” said EEA Project Manager of Copernicus Land Services Hans Dufourmont. “The combination of precision geolocation services with satellite imagery at sub-metre pixel sizes paves the way for a new range of uses and in domains as diverse as precision farming, ecosystem service monitoring and urban growth monitoring – to name only a few.”
“Galileo’s improved signal robustness and varying levels of authentication, along with the Commercial Service’s high-accuracy receiver error below one decimetre, are all features that will greatly benefit geospatial users,” added GSA Executive Director Carlo des Dorides. “With virtually all professional surveying receivers preparing for the declaration of Galileo Initial Services later this year, geospatial users are increasingly able to benefit from European GNSS.”
Galileo, Europe’s own global navigation satellite system, provides a global positioning service under civilian control. Offering dual frequencies as its standard, Galileo’s open service will deliver improved real-time positioning accuracy, in combination with already existing GNSS constellations. Copernicus, Europe’s Earth observation system, consists of a complex set of systems that collect data from the Sentinel satellites and other sources. It bundles these data and provides users with reliable and up-to-date information through a set of services related to environmental and security issues.
Though there is already a wealth of applications for both European systems, their open data policies will enable the creation of new services and applications and, as a result, new business creation. Galileo determines a precise position anytime and anywhere on the globe, while Copernicus provides information on the Earth’s surface, its atmosphere and marine systems. The joint use of both systems in applications will unleash synergies and result in multiple benefits for the users.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) highlights how the combination of GNSS and Earth observation services mean increased benefits for geospatial applications.
As part of its recent annual congress, the International Society for Photogrammetry and Remote Sensing (ISPRS) held a special session on Galileo and Copernicus and their role in geospatial land applications. The session, jointly organised by the European GNSS Agency (GSA), the European Environmental Agency (EEA) and the Horizon 2020 funded LARA project, drew over 70 participants.
A common theme of the session was a general need for a stronger connection between GNSS-generated geospatial data and remote sensing applications and services, including its relevant stakeholders. To demonstrate why, presenters emphasised the added value that geolocation and earth observation services offer when they work together.
Also read: Galileo and EGNOS benefiting the Geospatial World
“The successful launch of Sentinel-2, along with Earth observation’s increasing capacity to use Very High Resolution sensors, are providing a boost to the European remote sensing industry,” said EEA Project Manager of Copernicus Land Services Hans Dufourmont. “The combination of precision geolocation services with satellite imagery at sub-metre pixel sizes paves the way for a new range of uses and in domains as diverse as precision farming, ecosystem service monitoring and urban growth monitoring – to name only a few.”
“Galileo’s improved signal robustness and varying levels of authentication, along with the Commercial Service’s high-accuracy receiver error below one decimetre, are all features that will greatly benefit geospatial users,” added GSA Executive Director Carlo des Dorides. “With virtually all professional surveying receivers preparing for the declaration of Galileo Initial Services later this year, geospatial users are increasingly able to benefit from European GNSS.”
Galileo, Europe’s own global navigation satellite system, provides a global positioning service under civilian control. Offering dual frequencies as its standard, Galileo’s open service will deliver improved real-time positioning accuracy, in combination with already existing GNSS constellations. Copernicus, Europe’s Earth observation system, consists of a complex set of systems that collect data from the Sentinel satellites and other sources. It bundles these data and provides users with reliable and up-to-date information through a set of services related to environmental and security issues.
Though there is already a wealth of applications for both European systems, their open data policies will enable the creation of new services and applications and, as a result, new business creation. Galileo determines a precise position anytime and anywhere on the globe, while Copernicus provides information on the Earth’s surface, its atmosphere and marine systems. The joint use of both systems in applications will unleash synergies and result in multiple benefits for the users.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) highlights how the combination of GNSS and Earth observation services mean increased benefits for geospatial applications.
As part of its recent annual congress, the International Society for Photogrammetry and Remote Sensing (ISPRS) held a special session on Galileo and Copernicus and their role in geospatial land applications. The session, jointly organised by the European GNSS Agency (GSA), the European Environmental Agency (EEA) and the Horizon 2020 funded LARA project, drew over 70 participants.
A common theme of the session was a general need for a stronger connection between GNSS-generated geospatial data and remote sensing applications and services, including its relevant stakeholders. To demonstrate why, presenters emphasised the added value that geolocation and earth observation services offer when they work together.
Also read: Galileo and EGNOS benefiting the Geospatial World
“The successful launch of Sentinel-2, along with Earth observation’s increasing capacity to use Very High Resolution sensors, are providing a boost to the European remote sensing industry,” said EEA Project Manager of Copernicus Land Services Hans Dufourmont. “The combination of precision geolocation services with satellite imagery at sub-metre pixel sizes paves the way for a new range of uses and in domains as diverse as precision farming, ecosystem service monitoring and urban growth monitoring – to name only a few.”
“Galileo’s improved signal robustness and varying levels of authentication, along with the Commercial Service’s high-accuracy receiver error below one decimetre, are all features that will greatly benefit geospatial users,” added GSA Executive Director Carlo des Dorides. “With virtually all professional surveying receivers preparing for the declaration of Galileo Initial Services later this year, geospatial users are increasingly able to benefit from European GNSS.”
Galileo, Europe’s own global navigation satellite system, provides a global positioning service under civilian control. Offering dual frequencies as its standard, Galileo’s open service will deliver improved real-time positioning accuracy, in combination with already existing GNSS constellations. Copernicus, Europe’s Earth observation system, consists of a complex set of systems that collect data from the Sentinel satellites and other sources. It bundles these data and provides users with reliable and up-to-date information through a set of services related to environmental and security issues.
Though there is already a wealth of applications for both European systems, their open data policies will enable the creation of new services and applications and, as a result, new business creation. Galileo determines a precise position anytime and anywhere on the globe, while Copernicus provides information on the Earth’s surface, its atmosphere and marine systems. The joint use of both systems in applications will unleash synergies and result in multiple benefits for the users.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
On 7th of July, the Next Generation Train Control (NGTC) project, coordinated by UNIFE and supported by GNSS experts from the European GNSS Agency (GSA) and the European Space Agency (ESA), held a user-oriented workshop to present the main outcomes of the work package related to the future use of European GNSS for train control.
The Virtual Balise concept took centre stage at the workshop. Currently, in the European Train Control System (ETCS), the positioning of a train is based on a ‘balise’ – a physical element mounted at specific intervals along the railway track. The GSA is working to ensure that, wherever possible, these physical balises are replaced by virtual ones. Virtual balises expand on the cost and efficiency benefits stemming from their integration of GNSS technology into the European Rail Traffic Management System (ERTMS). Furthermore, there use does not pose any operational or safety implications on the ETCS.
During the workshop, the GSA presented its roadmap for the introduction of European GNSS in railway safety relevant applications. The roadmap is the result of a series of consultations that has seen the GSA working together with rail and space industry stakeholders in order to enable the use of satellite-based positioning for railway signalling.
NGTC was introduced as one of the lighthouse projects of Shift2Rail, a major European R&D Joint Undertaking paving the way for key technologies to enter into the railway domain, including European GNSS. The E-GNSS related work package contains an analysis of the ETCS operational scenarios and the underlying safety analysis, identifying the preliminary requirements needed from GNSS to allow proper functioning of the signalling system. The outcomes of the preliminary safety analysis, demonstrating the viability of the Virtual Balise concept, were discussed, along with other possible applications of GNSS technology in the rail domain. These discussions involved participants from the potential end-user communities, including European rail transport operators and infrastructure managers.
The data provided by NGTC is the cornerstone on which other projects, such as the GSA funded H2020 project Satellite Technology for Advanced Railway Signalling (STARS), will build from. Together, this work will advance research activities dedicated to achieving the integration of European GNSS into ERTMS.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
On 7th of July, the Next Generation Train Control (NGTC) project, coordinated by UNIFE and supported by GNSS experts from the European GNSS Agency (GSA) and the European Space Agency (ESA), held a user-oriented workshop to present the main outcomes of the work package related to the future use of European GNSS for train control.
The Virtual Balise concept took centre stage at the workshop. Currently, in the European Train Control System (ETCS), the positioning of a train is based on a ‘balise’ – a physical element mounted at specific intervals along the railway track. The GSA is working to ensure that, wherever possible, these physical balises are replaced by virtual ones. Virtual balises expand on the cost and efficiency benefits stemming from their integration of GNSS technology into the European Rail Traffic Management System (ERTMS). Furthermore, there use does not pose any operational or safety implications on the ETCS.
During the workshop, the GSA presented its roadmap for the introduction of European GNSS in railway safety relevant applications. The roadmap is the result of a series of consultations that has seen the GSA working together with rail and space industry stakeholders in order to enable the use of satellite-based positioning for railway signalling.
NGTC was introduced as one of the lighthouse projects of Shift2Rail, a major European R&D Joint Undertaking paving the way for key technologies to enter into the railway domain, including European GNSS. The E-GNSS related work package contains an analysis of the ETCS operational scenarios and the underlying safety analysis, identifying the preliminary requirements needed from GNSS to allow proper functioning of the signalling system. The outcomes of the preliminary safety analysis, demonstrating the viability of the Virtual Balise concept, were discussed, along with other possible applications of GNSS technology in the rail domain. These discussions involved participants from the potential end-user communities, including European rail transport operators and infrastructure managers.
The data provided by NGTC is the cornerstone on which other projects, such as the GSA funded H2020 project Satellite Technology for Advanced Railway Signalling (STARS), will build from. Together, this work will advance research activities dedicated to achieving the integration of European GNSS into ERTMS.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
On 7th of July, the Next Generation Train Control (NGTC) project, coordinated by UNIFE and supported by GNSS experts from the European GNSS Agency (GSA) and the European Space Agency (ESA), held a user-oriented workshop to present the main outcomes of the work package related to the future use of European GNSS for train control.
The Virtual Balise concept took centre stage at the workshop. Currently, in the European Train Control System (ETCS), the positioning of a train is based on a ‘balise’ – a physical element mounted at specific intervals along the railway track. The GSA is working to ensure that, wherever possible, these physical balises are replaced by virtual ones. Virtual balises expand on the cost and efficiency benefits stemming from their integration of GNSS technology into the European Rail Traffic Management System (ERTMS). Furthermore, there use does not pose any operational or safety implications on the ETCS.
During the workshop, the GSA presented its roadmap for the introduction of European GNSS in railway safety relevant applications. The roadmap is the result of a series of consultations that has seen the GSA working together with rail and space industry stakeholders in order to enable the use of satellite-based positioning for railway signalling.
NGTC was introduced as one of the lighthouse projects of Shift2Rail, a major European R&D Joint Undertaking paving the way for key technologies to enter into the railway domain, including European GNSS. The E-GNSS related work package contains an analysis of the ETCS operational scenarios and the underlying safety analysis, identifying the preliminary requirements needed from GNSS to allow proper functioning of the signalling system. The outcomes of the preliminary safety analysis, demonstrating the viability of the Virtual Balise concept, were discussed, along with other possible applications of GNSS technology in the rail domain. These discussions involved participants from the potential end-user communities, including European rail transport operators and infrastructure managers.
The data provided by NGTC is the cornerstone on which other projects, such as the GSA funded H2020 project Satellite Technology for Advanced Railway Signalling (STARS), will build from. Together, this work will advance research activities dedicated to achieving the integration of European GNSS into ERTMS.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
On 7th of July, the Next Generation Train Control (NGTC) project, coordinated by UNIFE and supported by GNSS experts from the European GNSS Agency (GSA) and the European Space Agency (ESA), held a user-oriented workshop to present the main outcomes of the work package related to the future use of European GNSS for train control.
The Virtual Balise concept took centre stage at the workshop. Currently, in the European Train Control System (ETCS), the positioning of a train is based on a ‘balise’ – a physical element mounted at specific intervals along the railway track. The GSA is working to ensure that, wherever possible, these physical balises are replaced by virtual ones. Virtual balises expand on the cost and efficiency benefits stemming from their integration of GNSS technology into the European Rail Traffic Management System (ERTMS). Furthermore, there use does not pose any operational or safety implications on the ETCS.
During the workshop, the GSA presented its roadmap for the introduction of European GNSS in railway safety relevant applications. The roadmap is the result of a series of consultations that has seen the GSA working together with rail and space industry stakeholders in order to enable the use of satellite-based positioning for railway signalling.
NGTC was introduced as one of the lighthouse projects of Shift2Rail, a major European R&D Joint Undertaking paving the way for key technologies to enter into the railway domain, including European GNSS. The E-GNSS related work package contains an analysis of the ETCS operational scenarios and the underlying safety analysis, identifying the preliminary requirements needed from GNSS to allow proper functioning of the signalling system. The outcomes of the preliminary safety analysis, demonstrating the viability of the Virtual Balise concept, were discussed, along with other possible applications of GNSS technology in the rail domain. These discussions involved participants from the potential end-user communities, including European rail transport operators and infrastructure managers.
The data provided by NGTC is the cornerstone on which other projects, such as the GSA funded H2020 project Satellite Technology for Advanced Railway Signalling (STARS), will build from. Together, this work will advance research activities dedicated to achieving the integration of European GNSS into ERTMS.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures.
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach project | Irish Aviation Authority |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR’ type approach structure) for the planned runway in use |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria |
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures |
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited | LPV on both runway ends (currently non-instrument) | Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners |
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers |
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility |
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines |
GNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions |
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway ends; nearby airports will have LPV by 2016 Equipped simulators will allow cost-effective training for students |
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. Bergen is currently equipped with two PinS approaches for helicopters with LNAV minima only LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction |
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PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport |
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP) |
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
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Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters | Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach project | Irish Aviation Authority |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR’ type approach structure) for the planned runway in use |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria |
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures |
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited | LPV on both runway ends (currently non-instrument) | Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners |
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers |
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility |
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines |
GNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions |
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway ends; nearby airports will have LPV by 2016 Equipped simulators will allow cost-effective training for students |
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. Bergen is currently equipped with two PinS approaches for helicopters with LNAV minima only LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction |
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport |
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP) |
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach project | Irish Aviation Authority |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning |
Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L.; Austrocontrol; Christophorus; Flugrettungsverein; BMI-Flugpolizei; Norsk Luftamulanse; CHC helicopters | Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence; z.s.p.o.; DSA A.S.; F Air, SPOL. S.R.O.; RLP CR, S.P.; Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo; Elicotteri VVF; Aeroporto ‘Gianni; Caproni’; S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L.; Sharper Shape Ltd; EuroUSC – Italia; FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach project | Irish Aviation Authority |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning |
Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L.; Austrocontrol; Christophorus; Flugrettungsverein; BMI-Flugpolizei; Norsk Luftamulanse; CHC helicopters | Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence; z.s.p.o.; DSA A.S.; F Air, SPOL. S.R.O.; RLP CR, S.P.; Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo; Elicotteri VVF; Aeroporto ‘Gianni; Caproni’; S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L.; Sharper Shape Ltd; EuroUSC – Italia; FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning |
Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
Increased safety
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L.; Austrocontrol; Christophorus; Flugrettungsverein; BMI-Flugpolizei; Norsk Luftamulanse; CHC helicopters | Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence; z.s.p.o.; DSA A.S.; F Air, SPOL. S.R.O.; RLP CR, S.P.; Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo; Elicotteri VVF; Aeroporto ‘Gianni; Caproni’; S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L.; Sharper Shape Ltd; EuroUSC – Italia; FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning |
Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach project | Irish Aviation Authority |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR’ type approach structure) for the planned runway in use
|
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited | LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
GNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway ends; nearby airports will have LPV by 2016 Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. Bergen is currently equipped with two PinS approaches for helicopters with LNAV minima only LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19
Approach to runway 19 to be designed with LPV-200 criteria
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
Increased safety
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV)and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB | EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L.; Austrocontrol; Christophorus; Flugrettungsverein; BMI-Flugpolizei; Norsk Luftamulanse; CHC helicopters | Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence; z.s.p.o.; DSA A.S.; F Air, SPOL. S.R.O.; RLP CR, S.P.; Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo; Elicotteri VVF; Aeroporto ‘Gianni; Caproni’; S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L.; Sharper Shape Ltd; EuroUSC – Italia; FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS
Validation in two scenarios: Scenario 1: transport for urgent medicines Scenario 2: Operations to extinguish fires
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach project | Irish Aviation Authority |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR’ type approach structure) for the planned runway in use
|
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited | LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
GNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway ends; nearby airports will have LPV by 2016 Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. Bergen is currently equipped with two PinS approaches for helicopters with LNAV minima only LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19
Approach to runway 19 to be designed with LPV-200 criteria
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
Increased safety
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV)and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB | EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L.; Austrocontrol; Christophorus; Flugrettungsverein; BMI-Flugpolizei; Norsk Luftamulanse; CHC helicopters | Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence; z.s.p.o.; DSA A.S.; F Air, SPOL. S.R.O.; RLP CR, S.P.; Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo; Elicotteri VVF; Aeroporto ‘Gianni; Caproni’; S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L.; Sharper Shape Ltd; EuroUSC – Italia; FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS
Validation in two scenarios: Scenario 1: transport for urgent medicines Scenario 2: Operations to extinguish fires
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19
Approach to runway 19 to be designed with LPV-200 criteria
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
Increased safety
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV)and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB | EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway ends; nearby airports will have LPV by 2016 Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. Bergen is currently equipped with two PinS approaches for helicopters with LNAV minima only LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L.; Austrocontrol; Christophorus; Flugrettungsverein; BMI-Flugpolizei; Norsk Luftamulanse; CHC helicopters | Rotorcraft retrofit |
Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military)
|
EGNOS in the Czech Republic | GNSS centre of Excellence; z.s.p.o.; DSA A.S.; F Air, SPOL. S.R.O.; RLP CR, S.P.; Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo; Elicotteri VVF; Aeroporto ‘Gianni; Caproni’; S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L.; Sharper Shape Ltd; EuroUSC – Italia; FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS
Validation in two scenarios: Scenario 1: transport for urgent medicines Scenario 2: Operations to extinguish fires
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures.
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach project | Irish Aviation Authority | LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR’ type approach structure) for the planned runway in use |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd | Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria |
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited | LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures |
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited | LPV on both runway ends (currently non-instrument) | Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners |
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford | Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers |
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle | Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility |
ENAC | Ecole Nationale de l’aviation Civile | Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines |
GNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB | EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions |
Svensk Pilotutbildning | Svensk Pilotutbildning AB | Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway ends; nearby airports will have LPV by 2016 Equipped simulators will allow cost-effective training for students |
Bristow | Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. Bergen is currently equipped with two PinS approaches for helicopters with LNAV minima only LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction |
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport |
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP) |
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios: Scenario 1: transport for urgent medicines Scenario 2: Operations to extinguish fires |
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach project | Irish Aviation Authority |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning |
Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports Increased safety |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB |
EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L. Austrocontrol Christophorus Flugrettungsverein BMI-Flugpolizei Norsk Luftamulanse CHC helicopters |
Rotorcraft retrofit | Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military) |
EGNOS in the Czech Republic | GNSS centre of Excellence z.s.p.o. DSA A.S. F Air, SPOL. S.R.O. RLP CR, S.P. Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo Elicotteri VVF Aeroporto ‘Gianni Caproni’ S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L. Sharper Shape Ltd EuroUSC – Italia FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS Validation in two scenarios:
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
European GNSS Agency (GSA) funds 14 projects to help foster the implementation of EGNOS-based operations and LPV-200 procedures at European airports as part of its 2015 Aviation Call for Grants.
The GSA recently announced the projects selected for funding under its 2015 Aviation Call for Grants GSA/EEX.0030/2015. This second call brought great results, with 14 projects selected for funding, starting from July and August 2016.
The funded projects are expected to foster the design, development and operational implementation of European Geostationary Navigation Overlay Service (EGNOS)-based operations, including LPV-200 (localiser performance with vertical guidance) procedures, at different European aerodromes, with an emphasis on the regional airports and heliports that general and business aviation operators depend upon.
In addition, the call also aims to support the development and installation of GPS/EGNOS-enabled avionics and grant airworthiness certification for required navigation performance approach (RNP APCH) procedures down to LPV minima and point in space (PinS), and to achieve the approval of Air Operator Certificates (AOCs) for LPV operations of aircraft already equipped with satellite-based augmentation system (SBAS) capabilities.
Specifically, the following results are expected:
“These grants will ensure more European airports and more European operators are able to take full advantage of EGNOS procedures, meaning increased safety and more accessibility for everyone,” says GSA Head of Market Development GG Calini.
The total budget for the second call was EUR 6 million.
The funded projects are expected to foster the design, development and operational implementation of EGNOS-based operations, including LPV-200 procedures. (Click to enlarge)
Increased safety
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV) and LPV minima to runways 01 and 19
Approach to runway 19 to be designed with LPV-200 criteria
Project name | Beneficiary | Proposal | Impact |
AIRLA All Ireland LPV approach; project | Irish Aviation Authority |
Significant reduction in the minima with reference to every NPA currently published in the Aeronautical information Publication (AIP) Significant reduction in operational costs for airlines operating at regional (non-state) airports |
LPV approach procedures at 9 state and regional airports in Ireland, with 21 procedures
Restructure the airspace to facilitate direct RNAV arrivals (from en-route to an LPV ‘T-BAR' type approach structure) for the planned runway in use
Increased safety
|
London Oxford Airport | Oxford Aviation Services Ltd |
Lateral navigation (LNAV), LNAV/vertical navigation (VNAV)and LPV minima to runways 01 and 19 Approach to runway 19 to be designed with LPV-200 criteria
|
Primary regional and business aviation airport in the Thames Valley, identified by European Business Aviation Association (EBAA) members as a priority for LPV and operators already with LPV capabilities |
Glasgow Prestwick Airport | Glasgow Prestwick airport Limited |
LPV, LNAV and LNAV/VNAV to runways 21, 12 and 30 Replace, overlay and replicate the current conventional procedures
|
Substantially improved minima on runway 21 and a much more accurate arrival than currently provided by the non-directional beacon (NDB) or surveillance radar approach (SRA) |
Cumbernauld Airport | Cormack Aircraft Services Limited |
LPV on both runway ends (currently non-instrument) |
Main operating base for Hebridean Air Services (LPV-capable), 2 ATOs, 2 rotorcraft operators and many private aircraft owners
|
GAGA GNSS approaches for general aviation | AOPA UK Helios |
LPV approach procedures at 3 general aviation (GA) airports: Haverfordwest, Gloucestershire and Stapleford |
Increased availability of instrument procedures for GA community Support to training needs for instrument-rated (IR) pilots Attract new commercial customers
|
London Southend and Carlisle Lake District Airports | London Southend Airport company Limited Stobart Air Limited |
Implementation of LPV-200 at Southend and LPV + PinS at Carlisle |
Considerable business aviation traffic, with many LPV-capable aircraft Increased accessibility and safety compared to current NPA (Carlisle) Attract new commercial operations based on better accessibility
|
ENAC | Ecole Nationale de l’aviation Civile |
Retrofit of 12 BE58 aircraft with GTN650 Upgrade of 3 BE58 Flight Navigation Procedures Trainer (FNTP) II simulators All Ecole Nationale de l'Aviation Civile (ENAC) flight instructors’ IR-ME training and operational feedback sessions to authorities, other ATOs and airlines
|
EGNOS adopted by one of the leading flight training organisations in Europe for professional instrument rating training Expected total number of LPV landings on an annual basis is 6 200 in flight landings and 4 900 in simulator Integration and promotion of LPV procedures in the ATO with the largest training fleet in Europe |
Nextjet | Nextjet AB | EGNOS LPV approach approved for installation in all Nextjet’s 10 Saab 340 platforms STC development by Scandinavian Avionics |
Large Scandinavian regional operator will be able to modernise and extend the flexibility of its Saab 340 operations, especially on small and remote airports Lower cost of operation, with positive effect on customers due to reduction in delays in bad weather conditions
|
Svensk Pilotutbildning | Svensk Pilotutbildning AB |
Svensk Pilotutbildning, an ATO based at the Earth Science Geostationary Platform (ESGP) in Sweden, plans to upgrade 3 aircraft and 2 simulators Provide PBN/EGNOS/LPV to existing IR students and other customers |
ATO will make 1 250 in-flight LPV approaches on a yearly basis, within the normal training activities Majority of training flights will be performed at the home base (ESGP) with LPV on both runway ends; nearby airports will have LPV by 2016 Equipped simulators will allow cost-effective training for students
|
Bristow |
Retrofit of 6 S92s and a second flight management system (FMS) to be LPV-capable Add LPV capabilities to aircraft already equipped with one FMS that are certified for RNAV 5, RNAV 1/PRNAV and RNP APCH with LNAV minima |
Major rotorcraft operator serving oil and gas (O&G) SAR and Arctic SAR. Bases currently are Stavanger, Bergen and Hammerfest. Stavanger and Bergen have current LPV published. Bergen is currently equipped with two PinS approaches for helicopters with LNAV minima only LPV adds such operational benefits as the possibility of fully coupled flight, potentially better minima and maybe steeper angles for further noise reduction
|
|
PIONEERS 2: Early adoption of PinS rotorcraft procedures | Pildo Consulting S.L.; Austrocontrol; Christophorus; Flugrettungsverein; BMI-Flugpolizei; Norsk Luftamulanse; CHC helicopters | Rotorcraft retrofit |
Maximise the operational use of EGNOS in rotorcraft operations, enabling major helicopter emergency medical services (HEMSs) and off-shore operators with LPV capabilities, and also open the potential of EGNOS towards government operations (police and military)
|
EGNOS in the Czech Republic | GNSS centre of Excellence; z.s.p.o.; DSA A.S.; F Air, SPOL. S.R.O.; RLP CR, S.P.; Aero-Taxi OKR, A.S. |
Retrofit of 13 GA aircraft, 2 rotorcraft and 2 flight simulation training devices (FSTDs) with EGNOS-enabled avionics Introduction of EGNOS for rotorcraft operations in CZ |
LPV capabilities at two industry leaders in CZ for pilot training, covering +/- 60 % of national market, and +/- 20 % of market share in Central Europe First PinS in CZ to be used by HEMS. Other hospitals waiting for operational feedback of this procedure First PinS at busy international airport
|
Aeroporto Caproni | P.A.T. Nucleo; Elicotteri VVF; Aeroporto ‘Gianni; Caproni’; S.p.A. |
Design and validation of approach and departures supported by SBAS serving Trento Airport and the helipad at Cles hospital Specific point-to-point link to connect the instrument flight procedure (IFP)
|
Increased safety and continuity of the medical and emergency operations |
REAL: RPAS EGNOS-assisted landings | Pildo Consulting S.L.; Sharper Shape Ltd; EuroUSC – Italia; FADA/CATEC |
Develop an EGNOS-based navigation and surveillance sensor, ready to be coupled with a generic RPAS autopilot and ground station system Contribute to the approval of innovative RPAS operations, supported by a safety case, which in turn is supported by high levels of accuracy and integrity provided by EGNOS
Validation in two scenarios: Scenario 1: transport for urgent medicines Scenario 2: Operations to extinguish fires
|
Meanwhile, the 13 projects selected as part of the first call are all currently at various stages of implementation, with some already taking positive steps towards enabling EGNOS operations, particularly as they relate to regional aviation. Among these initial achievements is an upgrade of three simulators, with one having recently entered the market and the second to follow in the coming months. Another project is well on its way to successfully retrofitting a regional aircraft, making it to be another ‘ready to fly’ with EGNOS in 2017.
Overall, the first call is on course to publish up “first package “of 15 EGNOS procedures by the end of 2016.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
At the joint ‘Insurance Telematics’ and ‘Connected Cars’ conference in London, vehicle manufacturers, software engineers, public authorities and many more heard how GNSS- and internet-enabled vehicles are changing the road transport landscape.
Major vehicle manufacturers are now delivering motor vehicles with connected services for drivers, including real-time traffic and weather reports and accident or road works warnings. More applications are on the way, and the technology systems that support them will enable the increasing number of autonomous vehicles that will soon be cruising down our roads and highways.
A key message from the conference was to see integrated GNSS systems as providing more than just positioning and navigation. For example, with GNSS a wide range of other key services are made possible, including:
As to the use of GNSS within the connected car, the trend is for carmakers to take a more important role within GNSS-related services. In fact, by 2020 more and more vehicles with built-in GNSS and fewer ‘nomadic devices’ like portable GNSS receivers will be coming onto the market. This trend is already being seen in prototype autonomous driving cars, where GNSS is viewed as a fundamental enabling technology.
Another advantage that GNSS has within the connected car is that it is complementary to and interoperable with other automotive technologies. Although today we talk about sensor-based versus connection-based solutions for a variety of vehicle services, a ‘converged solution’ seems to be the best alternative, combining the best of both approaches. By integrating sensor data and connectivity-based information operators can reduce the need for the most expensive sensors and, at the same time, save money on infrastructure. Accurate and secure GNSS will help drastically reduce costs, with a single, integrated ‘GNSS engine’ embedded within the vehicle that will provide positioning, navigation and timing for all needs – including many different applications and car functions.
With the advent and rapid spread of connectivity in cars, cyber security has suddenly become a major concern within the automotive industry. At a special session on cyber security, Anna Stylianou from SBD explained how new connected technologies, including those specifically aimed at increasing safety, have actually increased the attack surface available to hackers. “As vehicles become completely autonomous, they become more reliant on connected services and GNSS, and even ‘driver fall-back’ in case of error will no longer be an option,” she said. “As a result, the risks associated with hacking or GNSS jamming and spoofing will be even greater.”
Luckily, Galileo, which is set to launch initial services later this year, will play a key role in combating these security threats. “There is an increasing need to deliver a robust GNSS module that can provide an efficient, resilient and low-cost defence against jamming or spoofing attacks,” said GSA Deputy Head of Market Development Fiametta Diani. “Galileo will be a dual frequency service, so it will be resistant to atmospheric interference, and it will have greater resistance to multipath interference, or interference due to signal reflections off buildings and other objects, such as in urban canyons.”
Galileo will also have an authentication signal to detect intentional interference, such as spoofing attacks. “This authentication feature is essentially a digital signature that will be available on the E1 Open Service frequency, but also on the Commercial Service E6 frequency, which will certainly be interesting for autonomous driving,” said Diani.
In a key announcement, Diani cited a new independent study by Broadcom, a major international wireless and broadband company, which confirms Galileo mitigation of multipath effects. “Recent tests by Broadcom show that Galileo E1 is a better solution against multipath than GPS L1,” she said. “The strength of the Galileo signal, together with an advanced code modulation, makes Galileo better at mitigating multipath effects, especially in E5, but also in E1.”
Receivers that support Galileo show better performance in a multipath environment. This is because by supporting more constellations, one increases the chances of being able to select only direct line-of-sight signals. Not only that, but E1 measurements from Galileo satellites are more accurate in multipath environments than L1 measurements from GPS satellites – meaning the effect of multipath is two times smaller with Galileo E1 compared to GPS L1.
The authentication feature will be operational in the Open Service from 2018, at which time Galileo will be the sole and unique GNSS constellation offering such a security feature.
Momentum is now building for autonomous vehicles, with GNSS as a key component, and here the European Union is delivering the policy support to back up this movement. Last April, for example, the transport ministers of all 28 EU Member States signed the ‘Amsterdam Declaration’ during an informal meeting of the Transport Council. The document lays out the specific steps necessary for the development of self-driving technologies in the EU. With this new Declaration, the European Commission and its Member States, along with the transport industry, have pledged to develop rules and regulations for autonomous vehicles – meaning Europe has a shared strategy on connected and autonomous driving.
This clear commitment on the part of the EU means the GSA can move forward with confidence in its support for research in this exciting new area. In fact, several ongoing research projects are already being funded by the GSA under the EU’s research framework budget, including Horizon 2020 projects , ‘Indrive’ and ‘Inlane’; many of which involve such European big-name players as TomTom, Fiat or Renault.
In November, a new call for proposals under the Horizon 2020 Framework Programme will be launched. The call will have a total budget of €33 million and is specifically targeting research in support of GNSS, including autonomous vehicle technologies.
Stay tuned to the GSA website for more information.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
At the joint ‘Insurance Telematics’ and ‘Connected Cars’ conference in London, vehicle manufacturers, software engineers, public authorities and many more heard how GNSS- and internet-enabled vehicles are changing the road transport landscape.
Major vehicle manufacturers are now delivering motor vehicles with connected services for drivers, including real-time traffic and weather reports and accident or road works warnings. More applications are on the way, and the technology systems that support them will enable the increasing number of autonomous vehicles that will soon be cruising down our roads and highways.
A key message from the conference was to see integrated GNSS systems as providing more than just positioning and navigation. For example, with GNSS a wide range of other key services are made possible, including:
As to the use of GNSS within the connected car, the trend is for carmakers to take a more important role within GNSS-related services. In fact, by 2020 more and more vehicles with built-in GNSS and fewer ‘nomadic devices’ like portable GNSS receivers will be coming onto the market. This trend is already being seen in prototype autonomous driving cars, where GNSS is viewed as a fundamental enabling technology.
Another advantage that GNSS has within the connected car is that it is complementary to and interoperable with other automotive technologies. Although today we talk about sensor-based versus connection-based solutions for a variety of vehicle services, a ‘converged solution’ seems to be the best alternative, combining the best of both approaches. By integrating sensor data and connectivity-based information operators can reduce the need for the most expensive sensors and, at the same time, save money on infrastructure. Accurate and secure GNSS will help drastically reduce costs, with a single, integrated ‘GNSS engine’ embedded within the vehicle that will provide positioning, navigation and timing for all needs – including many different applications and car functions.
With the advent and rapid spread of connectivity in cars, cyber security has suddenly become a major concern within the automotive industry. At a special session on cyber security, Anna Stylianou from SBD explained how new connected technologies, including those specifically aimed at increasing safety, have actually increased the attack surface available to hackers. “As vehicles become completely autonomous, they become more reliant on connected services and GNSS, and even ‘driver fall-back’ in case of error will no longer be an option,” she said. “As a result, the risks associated with hacking or GNSS jamming and spoofing will be even greater.”
Luckily, Galileo, which is set to launch initial services later this year, will play a key role in combating these security threats. “There is an increasing need to deliver a robust GNSS module that can provide an efficient, resilient and low-cost defence against jamming or spoofing attacks,” said GSA Deputy Head of Market Development Fiametta Diani. “Galileo will be a dual frequency service, so it will be resistant to atmospheric interference, and it will have greater resistance to multipath interference, or interference due to signal reflections off buildings and other objects, such as in urban canyons.”
Galileo will also have an authentication signal to detect intentional interference, such as spoofing attacks. “This authentication feature is essentially a digital signature that will be available on the E1 Open Service frequency, but also on the Commercial Service E6 frequency, which will certainly be interesting for autonomous driving,” said Diani.
In a key announcement, Diani cited a new independent study by Broadcom, a major international wireless and broadband company, which confirms Galileo mitigation of multipath effects. “Recent tests by Broadcom show that Galileo E1 is a better solution against multipath than GPS L1,” she said. “The strength of the Galileo signal, together with an advanced code modulation, makes Galileo better at mitigating multipath effects, especially in E5, but also in E1.”
Receivers that support Galileo show better performance in a multipath environment. This is because by supporting more constellations, one increases the chances of being able to select only direct line-of-sight signals. Not only that, but E1 measurements from Galileo satellites are more accurate in multipath environments than L1 measurements from GPS satellites – meaning the effect of multipath is two times smaller with Galileo E1 compared to GPS L1.
The authentication feature will be operational in the Open Service from 2018, at which time Galileo will be the sole and unique GNSS constellation offering such a security feature.
Momentum is now building for autonomous vehicles, with GNSS as a key component, and here the European Union is delivering the policy support to back up this movement. Last April, for example, the transport ministers of all 28 EU Member States signed the ‘Amsterdam Declaration’ during an informal meeting of the Transport Council. The document lays out the specific steps necessary for the development of self-driving technologies in the EU. With this new Declaration, the European Commission and its Member States, along with the transport industry, have pledged to develop rules and regulations for autonomous vehicles – meaning Europe has a shared strategy on connected and autonomous driving.
This clear commitment on the part of the EU means the GSA can move forward with confidence in its support for research in this exciting new area. In fact, several ongoing research projects are already being funded by the GSA under the EU’s research framework budget, including Horizon 2020 projects , ‘Indrive’ and ‘Inlane’; many of which involve such European big-name players as TomTom, Fiat or Renault.
In November, a new call for proposals under the Horizon 2020 Framework Programme will be launched. The call will have a total budget of €33 million and is specifically targeting research in support of GNSS, including autonomous vehicle technologies.
Stay tuned to the GSA website for more information.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
At the joint ‘Insurance Telematics’ and ‘Connected Cars’ conference in London, vehicle manufacturers, software engineers, public authorities and many more heard how GNSS- and internet-enabled vehicles are changing the road transport landscape.
Major vehicle manufacturers are now delivering motor vehicles with connected services for drivers, including real-time traffic and weather reports and accident or road works warnings. More applications are on the way, and the technology systems that support them will enable the increasing number of autonomous vehicles that will soon be cruising down our roads and highways.
A key message from the conference was to see integrated GNSS systems as providing more than just positioning and navigation. For example, with GNSS a wide range of other key services are made possible, including:
As to the use of GNSS within the connected car, the trend is for carmakers to take a more important role within GNSS-related services. In fact, by 2020 more and more vehicles with built-in GNSS and fewer ‘nomadic devices’ like portable GNSS receivers will be coming onto the market. This trend is already being seen in prototype autonomous driving cars, where GNSS is viewed as a fundamental enabling technology.
Another advantage that GNSS has within the connected car is that it is complementary to and interoperable with other automotive technologies. Although today we talk about sensor-based versus connection-based solutions for a variety of vehicle services, a ‘converged solution’ seems to be the best alternative, combining the best of both approaches. By integrating sensor data and connectivity-based information operators can reduce the need for the most expensive sensors and, at the same time, save money on infrastructure. Accurate and secure GNSS will help drastically reduce costs, with a single, integrated ‘GNSS engine’ embedded within the vehicle that will provide positioning, navigation and timing for all needs – including many different applications and car functions.
With the advent and rapid spread of connectivity in cars, cyber security has suddenly become a major concern within the automotive industry. At a special session on cyber security, Anna Stylianou from SBD explained how new connected technologies, including those specifically aimed at increasing safety, have actually increased the attack surface available to hackers. “As vehicles become completely autonomous, they become more reliant on connected services and GNSS, and even ‘driver fall-back’ in case of error will no longer be an option,” she said. “As a result, the risks associated with hacking or GNSS jamming and spoofing will be even greater.”
Luckily, Galileo, which is set to launch initial services later this year, will play a key role in combating these security threats. “There is an increasing need to deliver a robust GNSS module that can provide an efficient, resilient and low-cost defence against jamming or spoofing attacks,” said GSA Deputy Head of Market Development Fiametta Diani. “Galileo will be a dual frequency service, so it will be resistant to atmospheric interference, and it will have greater resistance to multipath interference, or interference due to signal reflections off buildings and other objects, such as in urban canyons.”
Galileo will also have an authentication signal to detect intentional interference, such as spoofing attacks. “This authentication feature is essentially a digital signature that will be available on the E1 Open Service frequency, but also on the Commercial Service E6 frequency, which will certainly be interesting for autonomous driving,” said Diani.
In a key announcement, Diani cited a new independent study by Broadcom, a major international wireless and broadband company, which confirms Galileo mitigation of multipath effects. “Recent tests by Broadcom show that Galileo E1 is a better solution against multipath than GPS L1,” she said. “The strength of the Galileo signal, together with an advanced code modulation, makes Galileo better at mitigating multipath effects, especially in E5, but also in E1.”
Receivers that support Galileo show better performance in a multipath environment. This is because by supporting more constellations, one increases the chances of being able to select only direct line-of-sight signals. Not only that, but E1 measurements from Galileo satellites are more accurate in multipath environments than L1 measurements from GPS satellites – meaning the effect of multipath is two times smaller with Galileo E1 compared to GPS L1.
The authentication feature will be operational in the Open Service from 2018, at which time Galileo will be the sole and unique GNSS constellation offering such a security feature.
Momentum is now building for autonomous vehicles, with GNSS as a key component, and here the European Union is delivering the policy support to back up this movement. Last April, for example, the transport ministers of all 28 EU Member States signed the ‘Amsterdam Declaration’ during an informal meeting of the Transport Council. The document lays out the specific steps necessary for the development of self-driving technologies in the EU. With this new Declaration, the European Commission and its Member States, along with the transport industry, have pledged to develop rules and regulations for autonomous vehicles – meaning Europe has a shared strategy on connected and autonomous driving.
This clear commitment on the part of the EU means the GSA can move forward with confidence in its support for research in this exciting new area. In fact, several ongoing research projects are already being funded by the GSA under the EU’s research framework budget, including Horizon 2020 projects , ‘Indrive’ and ‘Inlane’; many of which involve such European big-name players as TomTom, Fiat or Renault.
In November, a new call for proposals under the Horizon 2020 Framework Programme will be launched. The call will have a total budget of €33 million and is specifically targeting research in support of GNSS, including autonomous vehicle technologies.
Stay tuned to the GSA website for more information.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Spanish technology company BQ announces that their new Aquaris X5 Plus smartphone will be the first European Galileo-ready smartphone to hit the market.
In anticipation of the planned launch of Galileo Initial Services later this year, the European GNSS Agency (GSA) welcomes the first European Galileo-ready smartphone. The Aquaris X5 Plus smartphone, produced by the Spanish technology company BQ, is based on the Galileo-supported Qualcomm Snapdragon 652 processor, with Galileo capability accessible via a software update to be released in Q4 2016.
This news follows on the heels of the June 21 announcement by US-based Qualcomm that the company was adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing, automotive and IoT applications. Qualcomm Technologies is a world leader in 3G, 4G and next-generation wireless technologies.
“Location Based Services (LBS) are undoubtedly the largest GNSS market segment, both in terms of number of devices and revenue potential, and thus are a strategic target for the GSA. I am glad to see Galileo is now starting to take-off in the smartphone arena,” says GSA Executive Director, Carlo des Dorides.
As a result of the uptake of Galileo by these two global technology leaders, EU citizens will be able to benefit from the improved location performance that Europe’s very own GNSS programme provides.
“The key to Galileo’s success in this market is to ensure its uptake by LBS device manufacturers. We are excited that a European smartphone manufacturer is pioneering the use of Galileo for enhanced LBS solutions,” added GSA Head of Market Development, Gian Gherardo Calini.
It is a great privilege for BQ to be one of the first in the world to offer Galileo in our devices,” says BQ Assistant General Manager, Rodrigo del Prado. “This is a clear demonstration of Europe’s robust technological capabilities.”
“Qualcomm is pleased to have worked with BQ, the GSA and the European Commission on the Aquaris X5 Plus and the key milestone that Galileo support within the device represents. Accurate, reliable, and rapid position location is an important part of the mobile experience. Users will not only benefit from more accurate and faster position location, but also a powerful range of features enabled by the Qualcomm Snapdragon 652 processor,” says Roberto Di Pietro, Vice President of Business Development at Qualcomm Technologies, Inc.
The next-generation Aquaris X5 Plus smartphone comes equipped with a 3,200 mAh battery, Qualcomm Snapdragon 652 Octa Core processor, up to 1.8 GHz and an Adreno 510 graphic processor of up to 550 MHz. It features a 16 Mpx back camera, Sony IMX298 sensor, f/2.0 dual tone flash and phase detection focus, along with a Sony IMX219 sensor-equipped 8 Mpx front camera. The phone offers 4K video recording, video stabiliser, fingerprint scanner and NFC.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Spanish technology company BQ announces that their new Aquaris X5 Plus smartphone will be the first European Galileo-ready smartphone to hit the market.
In anticipation of the planned launch of Galileo Initial Services later this year, the European GNSS Agency (GSA) welcomes the first European Galileo-ready smartphone. The Aquaris X5 Plus smartphone, produced by the Spanish technology company BQ, is based on the Galileo-supported Qualcomm Snapdragon 652 processor, with Galileo capability accessible via a software update to be released in Q4 2016.
This news follows on the heels of the June 21 announcement by US-based Qualcomm that the company was adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing, automotive and IoT applications. Qualcomm Technologies is a world leader in 3G, 4G and next-generation wireless technologies.
“Location Based Services (LBS) are undoubtedly the largest GNSS market segment, both in terms of number of devices and revenue potential, and thus are a strategic target for the GSA. I am glad to see Galileo is now starting to take-off in the smartphone arena,” says GSA Executive Director, Carlo des Dorides.
As a result of the uptake of Galileo by these two global technology leaders, EU citizens will be able to benefit from the improved location performance that Europe’s very own GNSS programme provides.
“The key to Galileo’s success in this market is to ensure its uptake by LBS device manufacturers. We are excited that a European smartphone manufacturer is pioneering the use of Galileo for enhanced LBS solutions,” added GSA Head of Market Development, Gian Gherardo Calini.
It is a great privilege for BQ to be one of the first in the world to offer Galileo in our devices,” says BQ Assistant General Manager, Rodrigo del Prado. “This is a clear demonstration of Europe’s robust technological capabilities.”
“Qualcomm is pleased to have worked with BQ, the GSA and the European Commission on the Aquaris X5 Plus and the key milestone that Galileo support within the device represents. Accurate, reliable, and rapid position location is an important part of the mobile experience. Users will not only benefit from more accurate and faster position location, but also a powerful range of features enabled by the Qualcomm Snapdragon 652 processor,” says Roberto Di Pietro, Vice President of Business Development at Qualcomm Technologies, Inc.
The next-generation Aquaris X5 Plus smartphone comes equipped with a 3,200 mAh battery, Qualcomm Snapdragon 652 Octa Core processor, up to 1.8 GHz and an Adreno 510 graphic processor of up to 550 MHz. It features a 16 Mpx back camera, Sony IMX298 sensor, f/2.0 dual tone flash and phase detection focus, along with a Sony IMX219 sensor-equipped 8 Mpx front camera. The phone offers 4K video recording, video stabiliser, fingerprint scanner and NFC.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Spanish technology company BQ announces that their new Aquaris X5 Plus smartphone will be the first European Galileo-ready smartphone to hit the market.
In anticipation of the planned launch of Galileo Initial Services later this year, the European GNSS Agency (GSA) welcomes the first European Galileo-ready smartphone. The Aquaris X5 Plus smartphone, produced by the Spanish technology company BQ, is based on the Galileo-supported Qualcomm Snapdragon 652 processor, with Galileo capability accessible via a software update to be released in Q4 2016.
This news follows on the heels of the June 21 announcement by US-based Qualcomm that the company was adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing, automotive and IoT applications. Qualcomm Technologies is a world leader in 3G, 4G and next-generation wireless technologies.
“Location Based Services (LBS) are undoubtedly the largest GNSS market segment, both in terms of number of devices and revenue potential, and thus are a strategic target for the GSA. I am glad to see Galileo is now starting to take-off in the smartphone arena,” says GSA Executive Director, Carlo des Dorides.
As a result of the uptake of Galileo by these two global technology leaders, EU citizens will be able to benefit from the improved location performance that Europe’s very own GNSS programme provides.
“The key to Galileo’s success in this market is to ensure its uptake by LBS device manufacturers. We are excited that a European smartphone manufacturer is pioneering the use of Galileo for enhanced LBS solutions,” added GSA Head of Market Development, Gian Gherardo Calini.
It is a great privilege for BQ to be one of the first in the world to offer Galileo in our devices,” says BQ Assistant General Manager, Rodrigo del Prado. “This is a clear demonstration of Europe’s robust technological capabilities.”
“Qualcomm is pleased to have worked with BQ, the GSA and the European Commission on the Aquaris X5 Plus and the key milestone that Galileo support within the device represents. Accurate, reliable, and rapid position location is an important part of the mobile experience. Users will not only benefit from more accurate and faster position location, but also a powerful range of features enabled by the Qualcomm Snapdragon 652 processor,” says Roberto Di Pietro, Vice President of Business Development at Qualcomm Technologies, Inc.
The next-generation Aquaris X5 Plus smartphone comes equipped with a 3,200 mAh battery, Qualcomm Snapdragon 652 Octa Core processor, up to 1.8 GHz and an Adreno 510 graphic processor of up to 550 MHz. It features a 16 Mpx back camera, Sony IMX298 sensor, f/2.0 dual tone flash and phase detection focus, along with a Sony IMX219 sensor-equipped 8 Mpx front camera. The phone offers 4K video recording, video stabiliser, fingerprint scanner and NFC.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Spanish technology company BQ announces that their new Aquaris X5 Plus smartphone will be the first European Galileo-ready smartphone to hit the market.
In anticipation of the planned launch of Galileo Initial Services later this year, the European GNSS Agency (GSA) welcomes the first European Galileo-ready smartphone. The Aquaris X5 Plus smartphone, produced by the Spanish technology company BQ, is based on the Galileo-supported Qualcomm Snapdragon 652 processor, with Galileo capability accessible via a software update to be released in Q4 2016.
This news follows on the heels of the June 21 announcement by US-based Qualcomm that the company was adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing, automotive and IoT applications. Qualcomm Technologies is a world leader in 3G, 4G and next-generation wireless technologies.
“Location Based Services (LBS) are undoubtedly the largest GNSS market segment, both in terms of number of devices and revenue potential, and thus are a strategic target for the GSA. I am glad to see Galileo is now starting to take-off in the smartphone arena,” says GSA Executive Director, Carlo des Dorides.
As a result of the uptake of Galileo by these two global technology leaders, EU citizens will be able to benefit from the improved location performance that Europe’s very own GNSS programme provides.
“The key to Galileo’s success in this market is to ensure its uptake by LBS device manufacturers. We are excited that a European smartphone manufacturer is pioneering the use of Galileo for enhanced LBS solutions,” added GSA Head of Market Development, Gian Gherardo Calini.
It is a great privilege for BQ to be one of the first in the world to offer Galileo in our devices,” says BQ Assistant General Manager, Rodrigo del Prado. “This is a clear demonstration of Europe’s robust technological capabilities.”
“Qualcomm is pleased to have worked with BQ, the GSA and the European Commission on the Aquaris X5 Plus and the key milestone that Galileo support within the device represents. Accurate, reliable, and rapid position location is an important part of the mobile experience. Users will not only benefit from more accurate and faster position location, but also a powerful range of features enabled by the Qualcomm Snapdragon 652 processor,” says Roberto Di Pietro, Vice President of Business Development at Qualcomm Technologies, Inc.
The next-generation Aquaris X5 Plus smartphone comes equipped with a 3,200 mAh battery, Qualcomm Snapdragon 652 Octa Core processor, up to 1.8 GHz and an Adreno 510 graphic processor of up to 550 MHz. It features a 16 Mpx back camera, Sony IMX298 sensor, f/2.0 dual tone flash and phase detection focus, along with a Sony IMX219 sensor-equipped 8 Mpx front camera. The phone offers 4K video recording, video stabiliser, fingerprint scanner and NFC.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The first official release of the Galileo Open Service Signal-in-Space Operational Status Definition Document is geared towards Galileo receiver manufacturers and is intended to serve as a guide to the use of the various SIS health indicators for implementation of robust navigation systems.
The European Commission and the European GNSS Agency (GSA) announce the publication of the first official release of the Galileo Open Service Signal-in-Space Operational Status Definition document (OS SIS OSD v1.1). The release is a follow-up to a preliminary document issued last year for public consultation (OS SIS ISD, v1.0) and incorporates numerous improvements suggested by the user community during the consultation process.
OS SIS OSD v1.1 complements the Galileo Open Service Signal-in-Space Interface Control Document (OS SIS ICD v1.2, 2015) by describing the encoding and use of the SIS Status for the OS. The SIS Status, or the operational status of the OS SIS broadcast by each Galileo satellite, determines the applicability of the minimum performance level of services defined in the Galileo Open Service – Service Definition Document (OS SDD), which will be published later this year.
The OS SIS OSD, which is specifically targeted towards Galileo receiver manufacturers, is meant to serve as a guide to using the various SIS health indicators for implementation of robust navigation systems.
The Galileo OS SIS OSD v1.1 document can be downloaded here.
The support of the European Space Agency (ESA) in the preparation of this document is gratefully acknowledged.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The first official release of the Galileo Open Service Signal-in-Space Operational Status Definition Document is geared towards Galileo receiver manufacturers and is intended to serve as a guide to the use of the various SIS health indicators for implementation of robust navigation systems.
The European Commission and the European GNSS Agency (GSA) announce the publication of the first official release of the Galileo Open Service Signal-in-Space Operational Status Definition document (OS SIS OSD v1.1). The release is a follow-up to a preliminary document issued last year for public consultation (OS SIS ISD, v1.0) and incorporates numerous improvements suggested by the user community during the consultation process.
OS SIS OSD v1.1 complements the Galileo Open Service Signal-in-Space Interface Control Document (OS SIS ICD v1.2, 2015) by describing the encoding and use of the SIS Status for the OS. The SIS Status, or the operational status of the OS SIS broadcast by each Galileo satellite, determines the applicability of the minimum performance level of services defined in the Galileo Open Service – Service Definition Document (OS SDD), which will be published later this year.
The OS SIS OSD, which is specifically targeted towards Galileo receiver manufacturers, is meant to serve as a guide to using the various SIS health indicators for implementation of robust navigation systems.
The Galileo OS SIS OSD v1.1 document can be downloaded here.
The support of the European Space Agency (ESA) in the preparation of this document is gratefully acknowledged.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The first official release of the Galileo Open Service Signal-in-Space Operational Status Definition Document is geared towards Galileo receiver manufacturers and is intended to serve as a guide to the use of the various SIS health indicators for implementation of robust navigation systems.
The European Commission and the European GNSS Agency (GSA) announce the publication of the first official release of the Galileo Open Service Signal-in-Space Operational Status Definition document (OS SIS OSD v1.1). The release is a follow-up to a preliminary document issued last year for public consultation (OS SIS ISD, v1.0) and incorporates numerous improvements suggested by the user community during the consultation process.
OS SIS OSD v1.1 complements the Galileo Open Service Signal-in-Space Interface Control Document (OS SIS ICD v1.2, 2015) by describing the encoding and use of the SIS Status for the OS. The SIS Status, or the operational status of the OS SIS broadcast by each Galileo satellite, determines the applicability of the minimum performance level of services defined in the Galileo Open Service – Service Definition Document (OS SDD), which will be published later this year.
The OS SIS OSD, which is specifically targeted towards Galileo receiver manufacturers, is meant to serve as a guide to using the various SIS health indicators for implementation of robust navigation systems.
The Galileo OS SIS OSD v1.1 document can be downloaded here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Knowledge, innovation and business support serve as the springboard for Galileo and EGNOS.
With Galileo Initial Services set to launch later this year, positioning the global navigation satellite system (GNSS) downstream market to take full advantage of the programme continues to be a hot topic. Here the European GNSS Agency (GSA) is taking the lead, working with the European Commission, to support the development of a sustainable GNSS downstream market by fostering European GNSS adoption.
Speaking at a recent workshop hosted by the Organisation for Economic Cooperation and Development (OECD), GSA Head of Market Development Gian Gherardo Calini discussed how innovation drives downstream space activities and what the GSA is doing to support this. According to Calini, the key drivers for innovation in GNSS include information, knowledge exchange, the generation of new business ideas, direct support to new technology adoption, research and development (R&D) technology and a robust policy framework.
“Education drives tomorrow’s innovation, building cutting-edge competences in European GNSS, cross-fertilising the skills and strengthening European industry’s position in the global market,” he says. “The GSA believes that education in European GNSS is key to ensuring the success of Galileo and EGNOS.”
“In the downstream space domain, European GNSS – Galileo and EGNOS – can be a major game changer, representing a catalyst to ignite evolution in the GNSS industry, service provision, application development and technological advances,” adds Greg Sadlier of London Economics, also speaking at the event. “Through education, capacity building and knowledge transfer, the GSA is raising awareness of the opportunities offered by European GNSS and how all segments, from Aviation to the Internet of Things, can benefit from the guidance and resources provided by the GSA to turn research into innovative market opportunities, and economic growth.”
In support of this push to raise awareness about European GNSS, the GSA has been actively involved in the promotion of a number of tools and projects. For example, the Seventh Framework Programme (FP7)-funded GENIUS project supported and nurtured a network of universities and research institutions active in the provision of GNSS training in the area of satellite navigation technologies, applications and services. The project laid the foundation for the development of pan-European collaborations that enabled technology transfer between universities, research institutes and industry.
Likewise, the Horizon 2020-funded E-KnoT project is focused on strengthening the interaction between three areas: education, research and industry in Europe. It is leveraging on past activities already undertaken in the field in order to strengthen this European GNSS knowledge triangle. The end result will be a solid network for the creation of a critical mass involving relevant actors coming together to support the development of Europe’s economy.
“Once the proper skills are established, we need to support the actual entrepreneur, SME or business by making proper market knowledge readily available,” says Calini. “On this point, the GSA is leading the way with its GNSS Market Report, which is recognised worldwide as a comprehensive source of knowledge and information on the GNSS global market.” The report, which is available for download free of charge, not only covers the GNSS market in general, but also provides market segment specific analysis.
In addition to the Market Report, the GSA is also involved in an array of activities aimed at providing support to European businesses leveraging the power of GNSS. For example, the agency helps European industry carve out a share of the lucrative Asian market via such international knowledge exchange initiatives as GNSS Asia and the BELS project. It also sponsors numerous contests and awards aimed at stimulating innovation, including the GSA Special Prize, part of the annual European Satellite Navigation Competition (ESNC). The GSA Special Prize supports the best ideas and applications that utilise Galileo’s Initial Services and the power of a multi-constellation environment to provide new and more robust benefits to the end-user.
Support for adoption, e.g. by key players in the downstream market value chain, is also very important, especially for central actors like chipset and receiver manufacturers. As a result of the GSA’s commitment to supporting innovation and helping companies take their ideas to commercialisation, such as through the Horizon 2020 programme and Fundamental Elements initiative, 17 chipset and receiver manufacturers already adopted Galileo this year, up from just 3 in 2010 – now representing more than 95 % of the total global supply.
“Here I can say with confidence that the GSA is in the driver’s seat with our foot firmly on the innovation accelerator,” concludes Calini.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Knowledge, innovation and business support serve as the springboard for Galileo and EGNOS.
With Galileo Initial Services set to launch later this year, positioning the global navigation satellite system (GNSS) downstream market to take full advantage of the programme continues to be a hot topic. Here the European GNSS Agency (GSA) is taking the lead, working with the European Commission, to support the development of a sustainable GNSS downstream market by fostering European GNSS adoption.
Speaking at a recent workshop hosted by the Organisation for Economic Cooperation and Development (OECD), GSA Head of Market Development Gian Gherardo Calini discussed how innovation drives downstream space activities and what the GSA is doing to support this. According to Calini, the key drivers for innovation in GNSS include information, knowledge exchange, the generation of new business ideas, direct support to new technology adoption, research and development (R&D) technology and a robust policy framework.
“Education drives tomorrow’s innovation, building cutting-edge competences in European GNSS, cross-fertilising the skills and strengthening European industry’s position in the global market,” he says. “The GSA believes that education in European GNSS is key to ensuring the success of Galileo and EGNOS.”
“In the downstream space domain, European GNSS – Galileo and EGNOS – can be a major game changer, representing a catalyst to ignite evolution in the GNSS industry, service provision, application development and technological advances,” adds Greg Sadlier of London Economics, also speaking at the event. “Through education, capacity building and knowledge transfer, the GSA is raising awareness of the opportunities offered by European GNSS and how all segments, from Aviation to the Internet of Things, can benefit from the guidance and resources provided by the GSA to turn research into innovative market opportunities, and economic growth.”
In support of this push to raise awareness about European GNSS, the GSA has been actively involved in the promotion of a number of tools and projects. For example, the Seventh Framework Programme (FP7)-funded GENIUS project supported and nurtured a network of universities and research institutions active in the provision of GNSS training in the area of satellite navigation technologies, applications and services. The project laid the foundation for the development of pan-European collaborations that enabled technology transfer between universities, research institutes and industry.
Likewise, the Horizon 2020-funded E-KnoT project is focused on strengthening the interaction between three areas: education, research and industry in Europe. It is leveraging on past activities already undertaken in the field in order to strengthen this European GNSS knowledge triangle. The end result will be a solid network for the creation of a critical mass involving relevant actors coming together to support the development of Europe’s economy.
“Once the proper skills are established, we need to support the actual entrepreneur, SME or business by making proper market knowledge readily available,” says Calini. “On this point, the GSA is leading the way with its GNSS Market Report, which is recognised worldwide as a comprehensive source of knowledge and information on the GNSS global market.” The report, which is available for download free of charge, not only covers the GNSS market in general, but also provides market segment specific analysis.
In addition to the Market Report, the GSA is also involved in an array of activities aimed at providing support to European businesses leveraging the power of GNSS. For example, the agency helps European industry carve out a share of the lucrative Asian market via such international knowledge exchange initiatives as GNSS Asia and the BELS project. It also sponsors numerous contests and awards aimed at stimulating innovation, including the GSA Special Prize, part of the annual European Satellite Navigation Competition (ESNC). The GSA Special Prize supports the best ideas and applications that utilise Galileo’s Initial Services and the power of a multi-constellation environment to provide new and more robust benefits to the end-user.
Support for adoption, e.g. by key players in the downstream market value chain, is also very important, especially for central actors like chipset and receiver manufacturers. As a result of the GSA’s commitment to supporting innovation and helping companies take their ideas to commercialisation, such as through the Horizon 2020 programme and Fundamental Elements initiative, 17 chipset and receiver manufacturers already adopted Galileo this year, up from just 3 in 2010 – now representing more than 95 % of the total global supply.
“Here I can say with confidence that the GSA is in the driver’s seat with our foot firmly on the innovation accelerator,” concludes Calini.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency elected CNES President and France’s inter-ministerial coordinator for European satellite navigation programmes Jean-Yves Le Gall as the new chair of its Administrative Board.
During the 45th meeting of the European GNSS Agency’s (GSA) Administrative Board, CNES (the French Space Agency) president and France’s inter-ministerial coordinator for European satellite navigation programmes Jean-Yves Le Gall was elected as its new chair. The Board also elected Mark Bacon, representing the United Kingdom, as its new deputy chair.
“I am honoured to have been elected chair of the GSA Administrative Board, with Galileo now poised to enter its operational phase,” says Le Gall. “This election confirms the desire of Member States to join forces on the cusp of a prolific period for European space as we move Galileo towards full operational capability.”
Le Gall thanked outgoing chair Sabine Dannelke of the German Federal Ministry of Transport and Digital Infrastructure for her leadership over the last few years and went on to say, “I look forward to working hand-in-hand with Executive Director Carlo des Dorides and everyone at the GSA, whom I already know well from my role at CNES.”
“With Galileo Initial Services set to launch later this year and the subsequent transfer of responsibility for Galileo operations to the GSA, this is a critical time for the agency,” says des Dorides. “I am pleased that the Member States continue to support the agency with confidence and I look forward to working closely with both Jean-Yves and Mark as Europe’s space programmes enter this new chapter.”
“I am very pleased to have been elected to work with the Board and I look forward to helping the GSA deliver on the Galileo and EGNOS programmes over the coming years,” adds Bacon.
The GSA Administrative Board is composed of representatives from each EU Member State, the European Commission, and the EU parliament. The Board meets three times per year to take various decisions (budget, work programme, etc.) and ensure that the Agency performs its entrusted tasks according to the regulation.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency elected CNES President and France’s inter-ministerial coordinator for European satellite navigation programmes Jean-Yves Le Gall as the new chair of its Administrative Board.
During the 45th meeting of the European GNSS Agency’s (GSA) Administrative Board, CNES (the French Space Agency) president and France’s inter-ministerial coordinator for European satellite navigation programmes Jean-Yves Le Gall was elected as its new chair. The Board also elected Mark Bacon, representing the United Kingdom, as its new deputy chair.
“I am honoured to have been elected chair of the GSA Administrative Board, with Galileo now poised to enter its operational phase,” says Le Gall. “This election confirms the desire of Member States to join forces on the cusp of a prolific period for European space as we move Galileo towards full operational capability.”
Le Gall thanked outgoing chair Sabine Dannelke of the German Federal Ministry of Transport and Digital Infrastructure for her leadership over the last few years and went on to say, “I look forward to working hand-in-hand with Executive Director Carlo des Dorides and everyone at the GSA, whom I already know well from my role at CNES.”
“With Galileo Initial Services set to launch later this year and the subsequent transfer of responsibility for Galileo operations to the GSA, this is a critical time for the agency,” says des Dorides. “I am pleased that the Member States continue to support the agency with confidence and I look forward to working closely with both Jean-Yves and Mark as Europe’s space programmes enter this new chapter.”
“I am very pleased to have been elected to work with the Board and I look forward to helping the GSA deliver on the Galileo and EGNOS programmes over the coming years,” adds Bacon.
The GSA Administrative Board is composed of representatives from each EU Member State, the European Commission, and the EU parliament. The Board meets three times per year to take various decisions (budget, work programme, etc.) and ensure that the Agency performs its entrusted tasks according to the regulation.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency elected CNES President and France’s inter-ministerial coordinator for European satellite navigation programmes Jean-Yves Le Gall as the new chair of its Administrative Board.
During the 45th meeting of the European GNSS Agency’s (GSA) Administrative Board, CNES (the French Space Agency) president and France’s inter-ministerial coordinator for European satellite navigation programmes Jean-Yves Le Gall was elected as its new chair. The Board also elected Mark Bacon, representing the United Kingdom, as its new deputy chair.
“I am honoured to have been elected chair of the GSA Administrative Board, with Galileo now poised to enter its operational phase,” says Le Gall. “This election confirms the desire of Member States to join forces on the cusp of a prolific period for European space as we move Galileo towards full operational capability.”
Le Gall thanked outgoing chair Sabine Dannelke of the German Federal Ministry of Transport and Digital Infrastructure for her leadership over the last few years and went on to say, “I look forward to working hand-in-hand with Executive Director Carlo des Dorides and everyone at the GSA, whom I already know well from my role at CNES.”
“With Galileo Initial Services set to launch later this year and the subsequent transfer of responsibility for Galileo operations to the GSA, this is a critical time for the agency,” says des Dorides. “I am pleased that the Member States continue to support the agency with confidence and I look forward to working closely with both Jean-Yves and Mark as Europe’s space programmes enter this new chapter.”
“I am very pleased to have been elected to work with the Board and I look forward to helping the GSA deliver on the Galileo and EGNOS programmes over the coming years,” adds Bacon.
The GSA Administrative Board is composed of representatives from each EU Member State, the European Commission, and the EU parliament. The Board meets three times per year to take various decisions (budget, work programme, etc.) and ensure that the Agency performs its entrusted tasks according to the regulation.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency elected CNES President and France’s inter-ministerial coordinator for European satellite navigation programmes Jean-Yves Le Gall as the new chair of its Administrative Board.
During the 45th meeting of the European GNSS Agency’s (GSA) Administrative Board, CNES (the French Space Agency) president and France’s inter-ministerial coordinator for European satellite navigation programmes Jean-Yves Le Gall was elected as its new chair. The Board also elected Mark Bacon, representing the United Kingdom, as its new deputy chair.
“I am honoured to have been elected chair of the GSA Administrative Board, with Galileo now poised to enter its operational phase,” says Le Gall. “This election confirms the desire of Member States to join forces on the cusp of a prolific period for European space as we move Galileo towards full operational capability.”
Le Gall thanked outgoing chair Sabine Dannelke of the German Federal Ministry of Transport and Digital Infrastructure for her leadership over the last few years and went on to say, “I look forward to working hand-in-hand with Executive Director Carlo des Dorides and everyone at the GSA, whom I already know well from my role at CNES.”
“With Galileo Initial Services set to launch later this year and the subsequent transfer of responsibility for Galileo operations to the GSA, this is a critical time for the agency,” says des Dorides. “I am pleased that the Member States continue to support the agency with confidence and I look forward to working closely with both Jean-Yves and Mark as Europe’s space programmes enter this new chapter.”
“I am very pleased to have been elected to work with the Board and I look forward to helping the GSA deliver on the Galileo and EGNOS programmes over the coming years,” adds Bacon.
The GSA Administrative Board is composed of representatives from each EU Member State, the European Commission, and the EU parliament. The Board meets three times per year to take various decisions (budget, work programme, etc.) and ensure that the Agency performs its entrusted tasks according to the regulation.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo in The Hague showcased how cycling and motorcycling are benefiting from GNSS positioning information.
From a country that has given us such international icons as wooden shoes, windmills, canals and narrow houses, perhaps nothing symbolises the Netherlands more than the bicycle. So when the European Space Expo landed in The Hague’s Het Plein, it was only natural that it came with a special exhibition on the role space solutions play in cycling and motor biking.
The Space Solutions for Biking event showcased the many innovative biking applications powered by satellite navigation (EGNOS and Galileo) and Earth observation (Copernicus) technology. Exhibiting companies covered an array of applications, including bike sharing, smart bike riding and emergency detection for motorbike riders.
For example, BikePredict is a mobile application that makes self-service bike riding easy by providing information on the number of available bikes and docks, both in real time and in the near future. “What is unique about our product is that we can predict where the bikes are going to be located,” says Chief Marketing Officer Clement Collignon. “As a user, you can log onto our app and see that there’s a 90 % chance of finding a bike or an open parking spot at a particular bike station in 30 minutes, which lets the user better plan their route.”
The app works similarly for the self-service bike operators, telling them how many bikes are docked where. “Trucks have to move bikes from station to station in order to rebalance the system, and this is a fairly significant cost to the operator,” says Collignon. “With BikePredict’s redistribution function, we estimate that we can help operators reduce costs by up to 25 %.”
Likewise, Bike Citizens used the event to show off how GNSS technology can benefit urban cyclists. The innovative app, which was designed by bike couriers, uses positioning information to guide users towards cycle paths and away from busy streets. There’s even no need to look down at the map, as Bike Citizens provides voice prompts about when and where to turn – meaning you can always keep your eyes on the road.
“Not only does it create the most efficient and bike-friendly route, the app will also provide information on points of interest as you ride,” says company Business Advisor Paul Mayer. “And our pre-packaged, themed routes – designed by local cyclists – are the perfect way to explore a new city.”
The app is available in cities worldwide. Furthermore, the company shares the data it collects via the app with research projects aimed at improving cycling in cities. Together with municipalities and companies, the Bike Citizens team designs, develops and promotes an array of tools to help cities promote urban biking.
Satsafe Technologies, also exhibiting at the Expo, is on a mission to develop innovative, global navigation satellite system (GNSS)-based products and services that provide safety and security benefits to the end-user. One such product is the SatsafeBike. The key innovation to this bike is the European Satellite Navigation Competition (ESNC) UK finalist’s winning Geoblock technology. The multi-sensor technology, which was originally developed for use in cars, determines the physical characteristics of a vehicle in real time, including acceleration, braking and cornering. This data is then analysed by a back office system, which applies an algorithm to produce individual driving scores.
“We are applying this same concept to bikes, creating an Internet-of-Things-enabled smart bike that we call the SatsafeBike,” says founder Stuart Millward. “Our aim is to have this technology embedded into bikes at manufacturer.” According to Stuart, the technology has already been deployed on electric bikes for Transport for Greater Manchester and the company is in discussions with a UK electric bike manufacturer about adopting the technology for all of their bikes.
“What’s really attractive about this technology for bike owners is its positioning capability,” explains Millward. “If you’re at work, for example, and your bike begins to move, the device will alert you of its position, enabling you to use the app to track and find your stolen bike.”
Turning to motorbikes, REALRIDER was on hand to talk about its motorcycle app that keeps riders safe and connected. The app lets motorcyclists ride with complete peace of mind knowing they are protected by the REALsafe feature – the app’s 999-certified, built-in lifesaving crash detection technology linked to emergency services.
Also an ESNC finalist, Chief Commercial Officer Andrew Richardson describes the product as a social app for motorcyclists with a GNSS-enabled safety feature. “Here you can record routes, add points of interest, and connect and share this information with friends and other riders – it’s all about sharing with a wider community,” he says. “But the apps main feature is really its crash-detection feature.”
According to Richardson, all too often a motorcyclist is riding by him or herself on open, remote roads. If they were to crash, be thrown from the bike and land unconscious, for all practical purposes they would be lost. Looking to the EU’s eCall emergency service for inspiration, the question that Richardson and his team asked was “how do we let emergency medical services know where the rider is and what their condition is before they leave to go on the rescue?”
The app uses a complex process of GNSS positioning and geolocation to determine whether a crash emergency has occurred. “With REALRIDER, your information is stored in the UK emergency service system,” explains Richardson. “If it detects a possible crash the app will send you a call to ask if you are ok. If you don’t respond, then it will automatically send your downstream satellite data, medical and contact information from the app to the nearest ambulance and the ambulance to your location via the BT operated 999 service.”
The Space Solutions for Biking event and the European Space Expo – The Hague were held in conjunction with the 2016 European Space Solutions Conference, co-hosted by the European Commission and the European GNSS Agency (GSA), under the auspices of the Dutch Presidency of the Council of the EU. To date, over 900 000 European citizens from across Europe have visited the European Space Expo, learning how European space policy and space-based technologies benefit our everyday lives, support the European economy and create jobs.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo in The Hague showcased how cycling and motorcycling are benefiting from GNSS positioning information.
From a country that has given us such international icons as wooden shoes, windmills, canals and narrow houses, perhaps nothing symbolises the Netherlands more than the bicycle. So when the European Space Expo landed in The Hague’s Het Plein, it was only natural that it came with a special exhibition on the role space solutions play in cycling and motor biking.
The Space Solutions for Biking event showcased the many innovative biking applications powered by satellite navigation (EGNOS and Galileo) and Earth observation (Copernicus) technology. Exhibiting companies covered an array of applications, including bike sharing, smart bike riding and emergency detection for motorbike riders.
For example, BikePredict is a mobile application that makes self-service bike riding easy by providing information on the number of available bikes and docks, both in real time and in the near future. “What is unique about our product is that we can predict where the bikes are going to be located,” says Chief Marketing Officer Clement Collignon. “As a user, you can log onto our app and see that there’s a 90 % chance of finding a bike or an open parking spot at a particular bike station in 30 minutes, which lets the user better plan their route.”
The app works similarly for the self-service bike operators, telling them how many bikes are docked where. “Trucks have to move bikes from station to station in order to rebalance the system, and this is a fairly significant cost to the operator,” says Collignon. “With BikePredict’s redistribution function, we estimate that we can help operators reduce costs by up to 25 %.”
Likewise, Bike Citizens used the event to show off how GNSS technology can benefit urban cyclists. The innovative app, which was designed by bike couriers, uses positioning information to guide users towards cycle paths and away from busy streets. There’s even no need to look down at the map, as Bike Citizens provides voice prompts about when and where to turn – meaning you can always keep your eyes on the road.
“Not only does it create the most efficient and bike-friendly route, the app will also provide information on points of interest as you ride,” says company Business Advisor Paul Mayer. “And our pre-packaged, themed routes – designed by local cyclists – are the perfect way to explore a new city.”
The app is available in cities worldwide. Furthermore, the company shares the data it collects via the app with research projects aimed at improving cycling in cities. Together with municipalities and companies, the Bike Citizens team designs, develops and promotes an array of tools to help cities promote urban biking.
Satsafe Technologies, also exhibiting at the Expo, is on a mission to develop innovative, global navigation satellite system (GNSS)-based products and services that provide safety and security benefits to the end-user. One such product is the SatsafeBike. The key innovation to this bike is the European Satellite Navigation Competition (ESNC) UK finalist’s winning Geoblock technology. The multi-sensor technology, which was originally developed for use in cars, determines the physical characteristics of a vehicle in real time, including acceleration, braking and cornering. This data is then analysed by a back office system, which applies an algorithm to produce individual driving scores.
“We are applying this same concept to bikes, creating an Internet-of-Things-enabled smart bike that we call the SatsafeBike,” says founder Stuart Millward. “Our aim is to have this technology embedded into bikes at manufacturer.” According to Stuart, the technology has already been deployed on electric bikes for Transport for Greater Manchester and the company is in discussions with a UK electric bike manufacturer about adopting the technology for all of their bikes.
“What’s really attractive about this technology for bike owners is its positioning capability,” explains Millward. “If you’re at work, for example, and your bike begins to move, the device will alert you of its position, enabling you to use the app to track and find your stolen bike.”
Turning to motorbikes, REALRIDER was on hand to talk about its motorcycle app that keeps riders safe and connected. The app lets motorcyclists ride with complete peace of mind knowing they are protected by the REALsafe feature – the app’s 999-certified, built-in lifesaving crash detection technology linked to emergency services.
Also an ESNC finalist, Chief Commercial Officer Andrew Richardson describes the product as a social app for motorcyclists with a GNSS-enabled safety feature. “Here you can record routes, add points of interest, and connect and share this information with friends and other riders – it’s all about sharing with a wider community,” he says. “But the apps main feature is really its crash-detection feature.”
According to Richardson, all too often a motorcyclist is riding by him or herself on open, remote roads. If they were to crash, be thrown from the bike and land unconscious, for all practical purposes they would be lost. Looking to the EU’s eCall emergency service for inspiration, the question that Richardson and his team asked was “how do we let emergency medical services know where the rider is and what their condition is before they leave to go on the rescue?”
The app uses a complex process of GNSS positioning and geolocation to determine whether a crash emergency has occurred. “With REALRIDER, your information is stored in the UK emergency service system,” explains Richardson. “If it detects a possible crash the app will send you a call to ask if you are ok. If you don’t respond, then it will automatically send your downstream satellite data, medical and contact information from the app to the nearest ambulance and the ambulance to your location via the BT operated 999 service.”
The Space Solutions for Biking event and the European Space Expo – The Hague were held in conjunction with the 2016 European Space Solutions Conference, co-hosted by the European Commission and the European GNSS Agency (GSA), under the auspices of the Dutch Presidency of the Council of the EU. To date, over 900 000 European citizens from across Europe have visited the European Space Expo, learning how European space policy and space-based technologies benefit our everyday lives, support the European economy and create jobs.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo in The Hague showcased how cycling and motorcycling are benefiting from GNSS positioning information.
From a country that has given us such international icons as wooden shoes, windmills, canals and narrow houses, perhaps nothing symbolises the Netherlands more than the bicycle. So when the European Space Expo landed in The Hague’s Het Plein, it was only natural that it came with a special exhibition on the role space solutions play in cycling and motor biking.
The Space Solutions for Biking event showcased the many innovative biking applications powered by satellite navigation (EGNOS and Galileo) and Earth observation (Copernicus) technology. Exhibiting companies covered an array of applications, including bike sharing, smart bike riding and emergency detection for motorbike riders.
For example, BikePredict is a mobile application that makes self-service bike riding easy by providing information on the number of available bikes and docks, both in real time and in the near future. “What is unique about our product is that we can predict where the bikes are going to be located,” says Chief Marketing Officer Clement Collignon. “As a user, you can log onto our app and see that there’s a 90 % chance of finding a bike or an open parking spot at a particular bike station in 30 minutes, which lets the user better plan their route.”
The app works similarly for the self-service bike operators, telling them how many bikes are docked where. “Trucks have to move bikes from station to station in order to rebalance the system, and this is a fairly significant cost to the operator,” says Collignon. “With BikePredict’s redistribution function, we estimate that we can help operators reduce costs by up to 25 %.”
Likewise, Bike Citizens used the event to show off how GNSS technology can benefit urban cyclists. The innovative app, which was designed by bike couriers, uses positioning information to guide users towards cycle paths and away from busy streets. There’s even no need to look down at the map, as Bike Citizens provides voice prompts about when and where to turn – meaning you can always keep your eyes on the road.
“Not only does it create the most efficient and bike-friendly route, the app will also provide information on points of interest as you ride,” says company Business Advisor Paul Mayer. “And our pre-packaged, themed routes – designed by local cyclists – are the perfect way to explore a new city.”
The app is available in cities worldwide. Furthermore, the company shares the data it collects via the app with research projects aimed at improving cycling in cities. Together with municipalities and companies, the Bike Citizens team designs, develops and promotes an array of tools to help cities promote urban biking.
Satsafe Technologies, also exhibiting at the Expo, is on a mission to develop innovative, global navigation satellite system (GNSS)-based products and services that provide safety and security benefits to the end-user. One such product is the SatsafeBike. The key innovation to this bike is the European Satellite Navigation Competition (ESNC) UK finalist’s winning Geoblock technology. The multi-sensor technology, which was originally developed for use in cars, determines the physical characteristics of a vehicle in real time, including acceleration, braking and cornering. This data is then analysed by a back office system, which applies an algorithm to produce individual driving scores.
“We are applying this same concept to bikes, creating an Internet-of-Things-enabled smart bike that we call the SatsafeBike,” says founder Stuart Millward. “Our aim is to have this technology embedded into bikes at manufacturer.” According to Stuart, the technology has already been deployed on electric bikes for Transport for Greater Manchester and the company is in discussions with a UK electric bike manufacturer about adopting the technology for all of their bikes.
“What’s really attractive about this technology for bike owners is its positioning capability,” explains Millward. “If you’re at work, for example, and your bike begins to move, the device will alert you of its position, enabling you to use the app to track and find your stolen bike.”
Turning to motorbikes, REALRIDER was on hand to talk about its motorcycle app that keeps riders safe and connected. The app lets motorcyclists ride with complete peace of mind knowing they are protected by the REALsafe feature – the app’s 999-certified, built-in lifesaving crash detection technology linked to emergency services.
Also an ESNC finalist, Chief Commercial Officer Andrew Richardson describes the product as a social app for motorcyclists with a GNSS-enabled safety feature. “Here you can record routes, add points of interest, and connect and share this information with friends and other riders – it’s all about sharing with a wider community,” he says. “But the apps main feature is really its crash-detection feature.”
According to Richardson, all too often a motorcyclist is riding by him or herself on open, remote roads. If they were to crash, be thrown from the bike and land unconscious, for all practical purposes they would be lost. Looking to the EU’s eCall emergency service for inspiration, the question that Richardson and his team asked was “how do we let emergency medical services know where the rider is and what their condition is before they leave to go on the rescue?”
The app uses a complex process of GNSS positioning and geolocation to determine whether a crash emergency has occurred. “With REALRIDER, your information is stored in the UK emergency service system,” explains Richardson. “If it detects a possible crash the app will send you a call to ask if you are ok. If you don’t respond, then it will automatically send your downstream satellite data, medical and contact information from the app to the nearest ambulance and the ambulance to your location via the BT operated 999 service.”
The Space Solutions for Biking event and the European Space Expo – The Hague were held in conjunction with the 2016 European Space Solutions Conference, co-hosted by the European Commission and the European GNSS Agency (GSA), under the auspices of the Dutch Presidency of the Council of the EU. To date, over 900 000 European citizens from across Europe have visited the European Space Expo, learning how European space policy and space-based technologies benefit our everyday lives, support the European economy and create jobs.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo in The Hague showcased how cycling and motorcycling are benefiting from GNSS positioning information.
From a country that has given us such international icons as wooden shoes, windmills, canals and narrow houses, perhaps nothing symbolises the Netherlands more than the bicycle. So when the European Space Expo landed in The Hague’s Het Plein, it was only natural that it came with a special exhibition on the role space solutions play in cycling and motor biking.
The Space Solutions for Biking event showcased the many innovative biking applications powered by satellite navigation (EGNOS and Galileo) and Earth observation (Copernicus) technology. Exhibiting companies covered an array of applications, including bike sharing, smart bike riding and emergency detection for motorbike riders.
For example, BikePredict is a mobile application that makes self-service bike riding easy by providing information on the number of available bikes and docks, both in real time and in the near future. “What is unique about our product is that we can predict where the bikes are going to be located,” says Chief Marketing Officer Clement Collignon. “As a user, you can log onto our app and see that there’s a 90 % chance of finding a bike or an open parking spot at a particular bike station in 30 minutes, which lets the user better plan their route.”
The app works similarly for the self-service bike operators, telling them how many bikes are docked where. “Trucks have to move bikes from station to station in order to rebalance the system, and this is a fairly significant cost to the operator,” says Collignon. “With BikePredict’s redistribution function, we estimate that we can help operators reduce costs by up to 25 %.”
Likewise, Bike Citizens used the event to show off how GNSS technology can benefit urban cyclists. The innovative app, which was designed by bike couriers, uses positioning information to guide users towards cycle paths and away from busy streets. There’s even no need to look down at the map, as Bike Citizens provides voice prompts about when and where to turn – meaning you can always keep your eyes on the road.
“Not only does it create the most efficient and bike-friendly route, the app will also provide information on points of interest as you ride,” says company Business Advisor Paul Mayer. “And our pre-packaged, themed routes – designed by local cyclists – are the perfect way to explore a new city.”
The app is available in cities worldwide. Furthermore, the company shares the data it collects via the app with research projects aimed at improving cycling in cities. Together with municipalities and companies, the Bike Citizens team designs, develops and promotes an array of tools to help cities promote urban biking.
Satsafe Technologies, also exhibiting at the Expo, is on a mission to develop innovative, global navigation satellite system (GNSS)-based products and services that provide safety and security benefits to the end-user. One such product is the SatsafeBike. The key innovation to this bike is the European Satellite Navigation Competition (ESNC) UK finalist’s winning Geoblock technology. The multi-sensor technology, which was originally developed for use in cars, determines the physical characteristics of a vehicle in real time, including acceleration, braking and cornering. This data is then analysed by a back office system, which applies an algorithm to produce individual driving scores.
“We are applying this same concept to bikes, creating an Internet-of-Things-enabled smart bike that we call the SatsafeBike,” says founder Stuart Millward. “Our aim is to have this technology embedded into bikes at manufacturer.” According to Stuart, the technology has already been deployed on electric bikes for Transport for Greater Manchester and the company is in discussions with a UK electric bike manufacturer about adopting the technology for all of their bikes.
“What’s really attractive about this technology for bike owners is its positioning capability,” explains Millward. “If you’re at work, for example, and your bike begins to move, the device will alert you of its position, enabling you to use the app to track and find your stolen bike.”
Turning to motorbikes, REALRIDER was on hand to talk about its motorcycle app that keeps riders safe and connected. The app lets motorcyclists ride with complete peace of mind knowing they are protected by the REALsafe feature – the app’s 999-certified, built-in lifesaving crash detection technology linked to emergency services.
Also an ESNC finalist, Chief Commercial Officer Andrew Richardson describes the product as a social app for motorcyclists with a GNSS-enabled safety feature. “Here you can record routes, add points of interest, and connect and share this information with friends and other riders – it’s all about sharing with a wider community,” he says. “But the apps main feature is really its crash-detection feature.”
According to Richardson, all too often a motorcyclist is riding by him or herself on open, remote roads. If they were to crash, be thrown from the bike and land unconscious, for all practical purposes they would be lost. Looking to the EU’s eCall emergency service for inspiration, the question that Richardson and his team asked was “how do we let emergency medical services know where the rider is and what their condition is before they leave to go on the rescue?”
The app uses a complex process of GNSS positioning and geolocation to determine whether a crash emergency has occurred. “With REALRIDER, your information is stored in the UK emergency service system,” explains Richardson. “If it detects a possible crash the app will send you a call to ask if you are ok. If you don’t respond, then it will automatically send your downstream satellite data, medical and contact information from the app to the nearest ambulance and the ambulance to your location via the BT operated 999 service.”
The Space Solutions for Biking event and the European Space Expo – The Hague were held in conjunction with the 2016 European Space Solutions Conference, co-hosted by the European Commission and the European GNSS Agency (GSA), under the auspices of the Dutch Presidency of the Council of the EU. To date, over 900 000 European citizens from across Europe have visited the European Space Expo, learning how European space policy and space-based technologies benefit our everyday lives, support the European economy and create jobs.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo in The Hague showcased how cycling and motorcycling are benefiting from GNSS positioning information.
From a country that has given us such international icons as wooden shoes, windmills, canals and narrow houses, perhaps nothing symbolises the Netherlands more than the bicycle. So when the European Space Expo landed in The Hague’s Het Plein, it was only natural that it came with a special exhibition on the role space solutions play in cycling and motor biking.
The Space Solutions for Biking event showcased the many innovative biking applications powered by satellite navigation (EGNOS and Galileo) and Earth observation (Copernicus) technology. Exhibiting companies covered an array of applications, including bike sharing, smart bike riding and emergency detection for motorbike riders.
For example, BikePredict is a mobile application that makes self-service bike riding easy by providing information on the number of available bikes and docks, both in real time and in the near future. “What is unique about our product is that we can predict where the bikes are going to be located,” says Chief Marketing Officer Clement Collignon. “As a user, you can log onto our app and see that there’s a 90 % chance of finding a bike or an open parking spot at a particular bike station in 30 minutes, which lets the user better plan their route.”
The app works similarly for the self-service bike operators, telling them how many bikes are docked where. “Trucks have to move bikes from station to station in order to rebalance the system, and this is a fairly significant cost to the operator,” says Collignon. “With BikePredict’s redistribution function, we estimate that we can help operators reduce costs by up to 25 %.”
Likewise, Bike Citizens used the event to show off how GNSS technology can benefit urban cyclists. The innovative app, which was designed by bike couriers, uses positioning information to guide users towards cycle paths and away from busy streets. There’s even no need to look down at the map, as Bike Citizens provides voice prompts about when and where to turn – meaning you can always keep your eyes on the road.
“Not only does it create the most efficient and bike-friendly route, the app will also provide information on points of interest as you ride,” says company Business Advisor Paul Mayer. “And our pre-packaged, themed routes – designed by local cyclists – are the perfect way to explore a new city.”
The app is available in cities worldwide. Furthermore, the company shares the data it collects via the app with research projects aimed at improving cycling in cities. Together with municipalities and companies, the Bike Citizens team designs, develops and promotes an array of tools to help cities promote urban biking.
Satsafe Technologies, also exhibiting at the Expo, is on a mission to develop innovative, global navigation satellite system (GNSS)-based products and services that provide safety and security benefits to the end-user. One such product is the SatsafeBike. The key innovation to this bike is the European Satellite Navigation Competition (ESNC) UK finalist’s winning Geoblock technology. The multi-sensor technology, which was originally developed for use in cars, determines the physical characteristics of a vehicle in real time, including acceleration, braking and cornering. This data is then analysed by a back office system, which applies an algorithm to produce individual driving scores.
“We are applying this same concept to bikes, creating an Internet-of-Things-enabled smart bike that we call the SatsafeBike,” says founder Stuart Millward. “Our aim is to have this technology embedded into bikes at manufacturer.” According to Stuart, the technology has already been deployed on electric bikes for Transport for Greater Manchester and the company is in discussions with a UK electric bike manufacturer about adopting the technology for all of their bikes.
“What’s really attractive about this technology for bike owners is its positioning capability,” explains Millward. “If you’re at work, for example, and your bike begins to move, the device will alert you of its position, enabling you to use the app to track and find your stolen bike.”
Turning to motorbikes, REALRIDER was on hand to talk about its motorcycle app that keeps riders safe and connected. The app lets motorcyclists ride with complete peace of mind knowing they are protected by the REALsafe feature – the app’s 999-certified, built-in lifesaving crash detection technology linked to emergency services.
Also an ESNC finalist, Chief Commercial Officer Andrew Richardson describes the product as a social app for motorcyclists with a GNSS-enabled safety feature. “Here you can record routes, add points of interest, and connect and share this information with friends and other riders – it’s all about sharing with a wider community,” he says. “But the apps main feature is really its crash-detection feature.”
According to Richardson, all too often a motorcyclist is riding by him or herself on open, remote roads. If they were to crash, be thrown from the bike and land unconscious, for all practical purposes they would be lost. Looking to the EU’s eCall emergency service for inspiration, the question that Richardson and his team asked was “how do we let emergency medical services know where the rider is and what their condition is before they leave to go on the rescue?”
The app uses a complex process of GNSS positioning and geolocation to determine whether a crash emergency has occurred. “With REALRIDER, your information is stored in the UK emergency service system,” explains Richardson. “If it detects a possible crash the app will send you a call to ask if you are ok. If you don’t respond, then it will automatically send your downstream satellite data, medical and contact information from the app to the nearest ambulance and the ambulance to your location via the BT operated 999 service.”
The Space Solutions for Biking event and the European Space Expo – The Hague were held in conjunction with the 2016 European Space Solutions Conference, co-hosted by the European Commission and the European GNSS Agency (GSA), under the auspices of the Dutch Presidency of the Council of the EU. To date, over 900 000 European citizens from across Europe have visited the European Space Expo, learning how European space policy and space-based technologies benefit our everyday lives, support the European economy and create jobs.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo in The Hague showcased how cycling and motorcycling are benefiting from GNSS positioning information.
From a country that has given us such international icons as wooden shoes, windmills, canals and narrow houses, perhaps nothing symbolises the Netherlands more than the bicycle. So when the European Space Expo landed in The Hague’s Het Plein, it was only natural that it came with a special exhibition on the role space solutions play in cycling and motor biking.
The Space Solutions for Biking event showcased the many innovative biking applications powered by satellite navigation (EGNOS and Galileo) and Earth observation (Copernicus) technology. Exhibiting companies covered an array of applications, including bike sharing, smart bike riding and emergency detection for motorbike riders.
For example, BikePredict is a mobile application that makes self-service bike riding easy by providing information on the number of available bikes and docks, both in real time and in the near future. “What is unique about our product is that we can predict where the bikes are going to be located,” says Chief Marketing Officer Clement Collignon. “As a user, you can log onto our app and see that there’s a 90 % chance of finding a bike or an open parking spot at a particular bike station in 30 minutes, which lets the user better plan their route.”
The app works similarly for the self-service bike operators, telling them how many bikes are docked where. “Trucks have to move bikes from station to station in order to rebalance the system, and this is a fairly significant cost to the operator,” says Collignon. “With BikePredict’s redistribution function, we estimate that we can help operators reduce costs by up to 25 %.”
Likewise, Bike Citizens used the event to show off how GNSS technology can benefit urban cyclists. The innovative app, which was designed by bike couriers, uses positioning information to guide users towards cycle paths and away from busy streets. There’s even no need to look down at the map, as Bike Citizens provides voice prompts about when and where to turn – meaning you can always keep your eyes on the road.
“Not only does it create the most efficient and bike-friendly route, the app will also provide information on points of interest as you ride,” says company Business Advisor Paul Mayer. “And our pre-packaged, themed routes – designed by local cyclists – are the perfect way to explore a new city.”
The app is available in cities worldwide. Furthermore, the company shares the data it collects via the app with research projects aimed at improving cycling in cities. Together with municipalities and companies, the Bike Citizens team designs, develops and promotes an array of tools to help cities promote urban biking.
Satsafe Technologies, also exhibiting at the Expo, is on a mission to develop innovative, global navigation satellite system (GNSS)-based products and services that provide safety and security benefits to the end-user. One such product is the SatsafeBike. The key innovation to this bike is the European Satellite Navigation Competition (ESNC) UK finalist’s winning Geoblock technology. The multi-sensor technology, which was originally developed for use in cars, determines the physical characteristics of a vehicle in real time, including acceleration, braking and cornering. This data is then analysed by a back office system, which applies an algorithm to produce individual driving scores.
“We are applying this same concept to bikes, creating an Internet-of-Things-enabled smart bike that we call the SatsafeBike,” says founder Stuart Millward. “Our aim is to have this technology embedded into bikes at manufacturer.” According to Stuart, the technology has already been deployed on electric bikes for Transport for Greater Manchester and the company is in discussions with a UK electric bike manufacturer about adopting the technology for all of their bikes.
“What’s really attractive about this technology for bike owners is its positioning capability,” explains Millward. “If you’re at work, for example, and your bike begins to move, the device will alert you of its position, enabling you to use the app to track and find your stolen bike.”
Turning to motorbikes, REALRIDER was on hand to talk about its motorcycle app that keeps riders safe and connected. The app lets motorcyclists ride with complete peace of mind knowing they are protected by the REALsafe feature – the app’s 999-certified, built-in lifesaving crash detection technology linked to emergency services.
Also an ESNC finalist, Chief Commercial Officer Andrew Richardson describes the product as a social app for motorcyclists with a GNSS-enabled safety feature. “Here you can record routes, add points of interest, and connect and share this information with friends and other riders – it’s all about sharing with a wider community,” he says. “But the apps main feature is really its crash-detection feature.”
According to Richardson, all too often a motorcyclist is riding by him or herself on open, remote roads. If they were to crash, be thrown from the bike and land unconscious, for all practical purposes they would be lost. Looking to the EU’s eCall emergency service for inspiration, the question that Richardson and his team asked was “how do we let emergency medical services know where the rider is and what their condition is before they leave to go on the rescue?”
The app uses a complex process of GNSS positioning and geolocation to determine whether a crash emergency has occurred. “With REALRIDER, your information is stored in the UK emergency service system,” explains Richardson. “If it detects a possible crash the app will send you a call to ask if you are ok. If you don’t respond, then it will automatically send your downstream satellite data, medical and contact information from the app to the nearest ambulance and the ambulance to your location via the BT operated 999 service.”
The Space Solutions for Biking event and the European Space Expo – The Hague were held in conjunction with the 2016 European Space Solutions Conference, co-hosted by the European Commission and the European GNSS Agency (GSA), under the auspices of the Dutch Presidency of the Council of the EU. To date, over 900 000 European citizens from across Europe have visited the European Space Expo, learning how European space policy and space-based technologies benefit our everyday lives, support the European economy and create jobs.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo in The Hague showcased how cycling and motorcycling are benefiting from GNSS positioning information.
From a country that has given us such international icons as wooden shoes, windmills, canals and narrow houses, perhaps nothing symbolises the Netherlands more than the bicycle. So when the European Space Expo landed in The Hague’s Het Plein, it was only natural that it came with a special exhibition on the role space solutions play in cycling and motor biking.
The Space Solutions for Biking event showcased the many innovative biking applications powered by satellite navigation (EGNOS and Galileo) and Earth observation (Copernicus) technology. Exhibiting companies covered an array of applications, including bike sharing, smart bike riding and emergency detection for motorbike riders.
For example, BikePredict is a mobile application that makes self-service bike riding easy by providing information on the number of available bikes and docks, both in real time and in the near future. “What is unique about our product is that we can predict where the bikes are going to be located,” says Chief Marketing Officer Clement Collignon. “As a user, you can log onto our app and see that there’s a 90 % chance of finding a bike or an open parking spot at a particular bike station in 30 minutes, which lets the user better plan their route.”
The app works similarly for the self-service bike operators, telling them how many bikes are docked where. “Trucks have to move bikes from station to station in order to rebalance the system, and this is a fairly significant cost to the operator,” says Collignon. “With BikePredict’s redistribution function, we estimate that we can help operators reduce costs by up to 25 %.”
Likewise, Bike Citizens used the event to show off how GNSS technology can benefit urban cyclists. The innovative app, which was designed by bike couriers, uses positioning information to guide users towards cycle paths and away from busy streets. There’s even no need to look down at the map, as Bike Citizens provides voice prompts about when and where to turn – meaning you can always keep your eyes on the road.
“Not only does it create the most efficient and bike-friendly route, the app will also provide information on points of interest as you ride,” says company Business Advisor Paul Mayer. “And our pre-packaged, themed routes – designed by local cyclists – are the perfect way to explore a new city.”
The app is available in cities worldwide. Furthermore, the company shares the data it collects via the app with research projects aimed at improving cycling in cities. Together with municipalities and companies, the Bike Citizens team designs, develops and promotes an array of tools to help cities promote urban biking.
Satsafe Technologies, also exhibiting at the Expo, is on a mission to develop innovative, global navigation satellite system (GNSS)-based products and services that provide safety and security benefits to the end-user. One such product is the SatsafeBike. The key innovation to this bike is the European Satellite Navigation Competition (ESNC) UK finalist’s winning Geoblock technology. The multi-sensor technology, which was originally developed for use in cars, determines the physical characteristics of a vehicle in real time, including acceleration, braking and cornering. This data is then analysed by a back office system, which applies an algorithm to produce individual driving scores.
“We are applying this same concept to bikes, creating an Internet-of-Things-enabled smart bike that we call the SatsafeBike,” says founder Stuart Millward. “Our aim is to have this technology embedded into bikes at manufacturer.” According to Stuart, the technology has already been deployed on electric bikes for Transport for Greater Manchester and the company is in discussions with a UK electric bike manufacturer about adopting the technology for all of their bikes.
“What’s really attractive about this technology for bike owners is its positioning capability,” explains Millward. “If you’re at work, for example, and your bike begins to move, the device will alert you of its position, enabling you to use the app to track and find your stolen bike.”
Turning to motorbikes, REALRIDER was on hand to talk about its motorcycle app that keeps riders safe and connected. The app lets motorcyclists ride with complete peace of mind knowing they are protected by the REALsafe feature – the app’s 999-certified, built-in lifesaving crash detection technology linked to emergency services.
Also an ESNC finalist, Chief Commercial Officer Andrew Richardson describes the product as a social app for motorcyclists with a GNSS-enabled safety feature. “Here you can record routes, add points of interest, and connect and share this information with friends and other riders – it’s all about sharing with a wider community,” he says. “But the apps main feature is really its crash-detection feature.”
According to Richardson, all too often a motorcyclist is riding by him or herself on open, remote roads. If they were to crash, be thrown from the bike and land unconscious, for all practical purposes they would be lost. Looking to the EU’s eCall emergency service for inspiration, the question that Richardson and his team asked was “how do we let emergency medical services know where the rider is and what their condition is before they leave to go on the rescue?”
The app uses a complex process of GNSS positioning and geolocation to determine whether a crash emergency has occurred. “With REALRIDER, your information is stored in the UK emergency service system,” explains Richardson. “If it detects a possible crash the app will send you a call to ask if you are ok. If you don’t respond, then it will automatically send your downstream satellite data, medical and contact information from the app to the nearest ambulance and the ambulance to your location via the BT operated 999 service.”
The Space Solutions for Biking event and the European Space Expo – The Hague were held in conjunction with the 2016 European Space Solutions Conference, co-hosted by the European Commission and the European GNSS Agency (GSA), under the auspices of the Dutch Presidency of the Council of the EU. To date, over 900 000 European citizens from across Europe have visited the European Space Expo, learning how European space policy and space-based technologies benefit our everyday lives, support the European economy and create jobs.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo lands in Paris to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis.
The European Space Expo is in Paris’ Parvis de la gare Montparnasse from 20-29 June to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis. Already over 950 000 European citizens have visited the Expo as it continues its tour of major European cities, and here in Paris the numbers are quickly moving towards the 1 million-milestone.
Speaking at the opening event, GSA Executive Director Carlo des Dorides highlighted how Europe’s space programmes are first and foremost a service geared towards providing across-the-board benefits to European citizens and end-users. According to des Dorides, for each euro invested, Europe’s space programmes generate between EUR 4 and EUR 10 in profit. For example, by 2027 Galileo will have saved 17 500 tons of CO2, saved over 4 500 lives and prevented the diversion of 120 000 flights in Europe.
“We are on the verge of a technological revolution with the growth of the Internet of Things. By 2020 150 billion objects will be interconnected, presenting a huge potential for geolocation,” he says. “To meet this increasing demand for precise geolocation positioning, no one system will be enough, meaning that the addition of Galileo to the system of systems will be fundamental – giving Europe a seat at the global GNSS table.”
There are over 1 000 satellites in space today, and by 2022 this number is expected to double. Of these, 14 are part of the Galileo programme, with more to be added in the coming months as the programme moves towards the launch of initial services later this year.
“Together, these satellites carry out such essential scientific tasks as monitoring the emission of greenhouse gases and their impact on climate change,” says the head of the European Commission Representation in France, Isabelle Jegouzo. “According to some accounts, up to 6 % of the European economy directly depends on these satellites, and the European Space Strategy that is currently being developed will leverage this power to enable Europe to have a true industrial policy.”
“Spatial data and spatial tools are essential to ensure a better command of our daily needs, as well as to find innovative solutions to tomorrow’s global challenges for humankind,” adds former astronaut and current adviser to the ESA Director General, Claudie Haigneré. “In addition, Europe’s space programmes put Europe, its scientists and its engineers at the forefront of research, knowledge and expertise in the 21st century.”
“Another reason for Europe’s space programmes is to defend the future of Europe and ensure it is alive for our children and grand-children,” concluded P. Goujon, Mayor Paris XV and Deputy.
The European Space Expo, organised by the European Commission and the GSA in collaboration with the European Space Agency provides information in several languages, with a focus on EU flagship programmes Galileo, European Geostationary Navigation Overlay Service (EGNOS) and Copernicus. Through these programmes, European citizens benefit from numerous services and applications, not only enhancing daily life, but also creating opportunities on world markets, and contributing to job creation and economic growth.
The event is free and open to the public. Learn more here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo lands in Paris to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis.
The European Space Expo is in Paris’ Parvis de la gare Montparnasse from 20-29 June to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis. Already over 950 000 European citizens have visited the Expo as it continues its tour of major European cities, and here in Paris the numbers are quickly moving towards the 1 million-milestone.
Speaking at the opening event, GSA Executive Director Carlo des Dorides highlighted how Europe’s space programmes are first and foremost a service geared towards providing across-the-board benefits to European citizens and end-users. According to des Dorides, for each euro invested, Europe’s space programmes generate between EUR 4 and EUR 10 in profit. For example, by 2027 Galileo will have saved 17 500 tons of CO2, saved over 4 500 lives and prevented the diversion of 120 000 flights in Europe.
“We are on the verge of a technological revolution with the growth of the Internet of Things. By 2020 150 billion objects will be interconnected, presenting a huge potential for geolocation,” he says. “To meet this increasing demand for precise geolocation positioning, no one system will be enough, meaning that the addition of Galileo to the system of systems will be fundamental – giving Europe a seat at the global GNSS table.”
There are over 1 000 satellites in space today, and by 2022 this number is expected to double. Of these, 14 are part of the Galileo programme, with more to be added in the coming months as the programme moves towards the launch of initial services later this year.
“Together, these satellites carry out such essential scientific tasks as monitoring the emission of greenhouse gases and their impact on climate change,” says the head of the European Commission Representation in France, Isabelle Jegouzo. “According to some accounts, up to 6 % of the European economy directly depends on these satellites, and the European Space Strategy that is currently being developed will leverage this power to enable Europe to have a true industrial policy.”
“Spatial data and spatial tools are essential to ensure a better command of our daily needs, as well as to find innovative solutions to tomorrow’s global challenges for humankind,” adds former astronaut and current adviser to the ESA Director General, Claudie Haigneré. “In addition, Europe’s space programmes put Europe, its scientists and its engineers at the forefront of research, knowledge and expertise in the 21st century.”
“Another reason for Europe’s space programmes is to defend the future of Europe and ensure it is alive for our children and grand-children,” concluded P. Goujon, Mayor Paris XV and Deputy.
The European Space Expo, organised by the European Commission and the GSA in collaboration with the European Space Agency provides information in several languages, with a focus on EU flagship programmes Galileo, European Geostationary Navigation Overlay Service (EGNOS) and Copernicus. Through these programmes, European citizens benefit from numerous services and applications, not only enhancing daily life, but also creating opportunities on world markets, and contributing to job creation and economic growth.
The event is free and open to the public. Learn more here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo lands in Paris to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis.
The European Space Expo is in Paris’ Parvis de la gare Montparnasse from 20-29 June to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis. Already over 950 000 European citizens have visited the Expo as it continues its tour of major European cities, and here in Paris the numbers are quickly moving towards the 1 million-milestone.
Speaking at the opening event, GSA Executive Director Carlo des Dorides highlighted how Europe’s space programmes are first and foremost a service geared towards providing across-the-board benefits to European citizens and end-users. According to des Dorides, for each euro invested, Europe’s space programmes generate between EUR 4 and EUR 10 in profit. For example, by 2027 Galileo will have saved 17 500 tons of CO2, saved over 4 500 lives and prevented the diversion of 120 000 flights in Europe.
“We are on the verge of a technological revolution with the growth of the Internet of Things. By 2020 150 billion objects will be interconnected, presenting a huge potential for geolocation,” he says. “To meet this increasing demand for precise geolocation positioning, no one system will be enough, meaning that the addition of Galileo to the system of systems will be fundamental – giving Europe a seat at the global GNSS table.”
There are over 1 000 satellites in space today, and by 2022 this number is expected to double. Of these, 14 are part of the Galileo programme, with more to be added in the coming months as the programme moves towards the launch of initial services later this year.
“Together, these satellites carry out such essential scientific tasks as monitoring the emission of greenhouse gases and their impact on climate change,” says the head of the European Commission Representation in France, Isabelle Jegouzo. “According to some accounts, up to 6 % of the European economy directly depends on these satellites, and the European Space Strategy that is currently being developed will leverage this power to enable Europe to have a true industrial policy.”
“Spatial data and spatial tools are essential to ensure a better command of our daily needs, as well as to find innovative solutions to tomorrow’s global challenges for humankind,” adds former astronaut and current adviser to the ESA Director General, Claudie Haigneré. “In addition, Europe’s space programmes put Europe, its scientists and its engineers at the forefront of research, knowledge and expertise in the 21st century.”
“Another reason for Europe’s space programmes is to defend the future of Europe and ensure it is alive for our children and grand-children,” concluded P. Goujon, Mayor Paris XV and Deputy.
The European Space Expo, organised by the European Commission and the GSA in collaboration with the European Space Agency provides information in several languages, with a focus on EU flagship programmes Galileo, European Geostationary Navigation Overlay Service (EGNOS) and Copernicus. Through these programmes, European citizens benefit from numerous services and applications, not only enhancing daily life, but also creating opportunities on world markets, and contributing to job creation and economic growth.
The event is free and open to the public. Learn more here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo lands in Paris to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis.
The European Space Expo is in Paris’ Parvis de la gare Montparnasse from 20-29 June to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis. Already over 950 000 European citizens have visited the Expo as it continues its tour of major European cities, and here in Paris the numbers are quickly moving towards the 1 million-milestone.
Speaking at the opening event, GSA Executive Director Carlo des Dorides highlighted how Europe’s space programmes are first and foremost a service geared towards providing across-the-board benefits to European citizens and end-users. According to des Dorides, for each euro invested, Europe’s space programmes generate between EUR 4 and EUR 10 in profit. For example, by 2027 Galileo will have saved 17 500 tons of CO2, saved over 4 500 lives and prevented the diversion of 120 000 flights in Europe.
“We are on the verge of a technological revolution with the growth of the Internet of Things. By 2020 150 billion objects will be interconnected, presenting a huge potential for geolocation,” he says. “To meet this increasing demand for precise geolocation positioning, no one system will be enough, meaning that the addition of Galileo to the system of systems will be fundamental – giving Europe a seat at the global GNSS table.”
There are over 1 000 satellites in space today, and by 2022 this number is expected to double. Of these, 14 are part of the Galileo programme, with more to be added in the coming months as the programme moves towards the launch of initial services later this year.
“Together, these satellites carry out such essential scientific tasks as monitoring the emission of greenhouse gases and their impact on climate change,” says the head of the European Commission Representation in France, Isabelle Jegouzo. “According to some accounts, up to 6 % of the European economy directly depends on these satellites, and the European Space Strategy that is currently being developed will leverage this power to enable Europe to have a true industrial policy.”
“Spatial data and spatial tools are essential to ensure a better command of our daily needs, as well as to find innovative solutions to tomorrow’s global challenges for humankind,” adds former astronaut and current adviser to the ESA Director General, Claudie Haigneré. “In addition, Europe’s space programmes put Europe, its scientists and its engineers at the forefront of research, knowledge and expertise in the 21st century.”
“Another reason for Europe’s space programmes is to defend the future of Europe and ensure it is alive for our children and grand-children,” concluded P. Goujon, Mayor Paris XV and Deputy.
The European Space Expo, organised by the European Commission and the GSA in collaboration with the European Space Agency provides information in several languages, with a focus on EU flagship programmes Galileo, European Geostationary Navigation Overlay Service (EGNOS) and Copernicus. Through these programmes, European citizens benefit from numerous services and applications, not only enhancing daily life, but also creating opportunities on world markets, and contributing to job creation and economic growth.
The event is free and open to the public. Learn more here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo lands in Paris to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis.
The European Space Expo is in Paris’ Parvis de la gare Montparnasse from 20-29 June to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis. Already over 950 000 European citizens have visited the Expo as it continues its tour of major European cities, and here in Paris the numbers are quickly moving towards the 1 million-milestone.
Speaking at the opening event, GSA Executive Director Carlo des Dorides highlighted how Europe’s space programmes are first and foremost a service geared towards providing across-the-board benefits to European citizens and end-users. According to des Dorides, for each euro invested, Europe’s space programmes generate between EUR 4 and EUR 10 in profit. For example, by 2027 Galileo will have saved 17 500 tons of CO2, saved over 4 500 lives and prevented the diversion of 120 000 flights in Europe.
“We are on the verge of a technological revolution with the growth of the Internet of Things. By 2020 150 billion objects will be interconnected, presenting a huge potential for geolocation,” he says. “To meet this increasing demand for precise geolocation positioning, no one system will be enough, meaning that the addition of Galileo to the system of systems will be fundamental – giving Europe a seat at the global GNSS table.”
There are over 1 000 satellites in space today, and by 2022 this number is expected to double. Of these, 14 are part of the Galileo programme, with more to be added in the coming months as the programme moves towards the launch of initial services later this year.
“Together, these satellites carry out such essential scientific tasks as monitoring the emission of greenhouse gases and their impact on climate change,” says the head of the European Commission Representation in France, Isabelle Jegouzo. “According to some accounts, up to 6 % of the European economy directly depends on these satellites, and the European Space Strategy that is currently being developed will leverage this power to enable Europe to have a true industrial policy.”
“Spatial data and spatial tools are essential to ensure a better command of our daily needs, as well as to find innovative solutions to tomorrow’s global challenges for humankind,” adds former astronaut and current adviser to the ESA Director General, Claudie Haigneré. “In addition, Europe’s space programmes put Europe, its scientists and its engineers at the forefront of research, knowledge and expertise in the 21st century.”
“Another reason for Europe’s space programmes is to defend the future of Europe and ensure it is alive for our children and grand-children,” concluded P. Goujon, Mayor Paris XV and Deputy.
The European Space Expo, organised by the European Commission and the GSA in collaboration with the European Space Agency provides information in several languages, with a focus on EU flagship programmes Galileo, European Geostationary Navigation Overlay Service (EGNOS) and Copernicus. Through these programmes, European citizens benefit from numerous services and applications, not only enhancing daily life, but also creating opportunities on world markets, and contributing to job creation and economic growth.
The event is free and open to the public. Learn more here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo lands in Paris to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis.
The European Space Expo is in Paris’ Parvis de la gare Montparnasse from 20-29 June to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis. Already over 950 000 European citizens have visited the Expo as it continues its tour of major European cities, and here in Paris the numbers are quickly moving towards the 1 million-milestone.
Speaking at the opening event, GSA Executive Director Carlo des Dorides highlighted how Europe’s space programmes are first and foremost a service geared towards providing across-the-board benefits to European citizens and end-users. According to des Dorides, for each euro invested, Europe’s space programmes generate between EUR 4 and EUR 10 in profit. For example, by 2027 Galileo will have saved 17 500 tons of CO2, saved over 4 500 lives and prevented the diversion of 120 000 flights in Europe.
“We are on the verge of a technological revolution with the growth of the Internet of Things. By 2020 150 billion objects will be interconnected, presenting a huge potential for geolocation,” he says. “To meet this increasing demand for precise geolocation positioning, no one system will be enough, meaning that the addition of Galileo to the system of systems will be fundamental – giving Europe a seat at the global GNSS table.”
There are over 1 000 satellites in space today, and by 2022 this number is expected to double. Of these, 14 are part of the Galileo programme, with more to be added in the coming months as the programme moves towards the launch of initial services later this year.
“Together, these satellites carry out such essential scientific tasks as monitoring the emission of greenhouse gases and their impact on climate change,” says the head of the European Commission Representation in France, Isabelle Jegouzo. “According to some accounts, up to 6 % of the European economy directly depends on these satellites, and the European Space Strategy that is currently being developed will leverage this power to enable Europe to have a true industrial policy.”
“Spatial data and spatial tools are essential to ensure a better command of our daily needs, as well as to find innovative solutions to tomorrow’s global challenges for humankind,” adds former astronaut and current adviser to the ESA Director General, Claudie Haigneré. “In addition, Europe’s space programmes put Europe, its scientists and its engineers at the forefront of research, knowledge and expertise in the 21st century.”
“Another reason for Europe’s space programmes is to defend the future of Europe and ensure it is alive for our children and grand-children,” concluded P. Goujon, Mayor Paris XV and Deputy.
The European Space Expo, organised by the European Commission and the GSA in collaboration with the European Space Agency provides information in several languages, with a focus on EU flagship programmes Galileo, European Geostationary Navigation Overlay Service (EGNOS) and Copernicus. Through these programmes, European citizens benefit from numerous services and applications, not only enhancing daily life, but also creating opportunities on world markets, and contributing to job creation and economic growth.
The event is free and open to the public. Learn more here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European Space Expo lands in Paris to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis.
The European Space Expo is in Paris’ Parvis de la gare Montparnasse from 20-29 June to highlight the many ways the European Union’s space programmes help EU citizens on a daily basis. Already over 950 000 European citizens have visited the Expo as it continues its tour of major European cities, and here in Paris the numbers are quickly moving towards the 1 million-milestone.
Speaking at the opening event, GSA Executive Director Carlo des Dorides highlighted how Europe’s space programmes are first and foremost a service geared towards providing across-the-board benefits to European citizens and end-users. According to des Dorides, for each euro invested, Europe’s space programmes generate between EUR 4 and EUR 10 in profit. For example, by 2027 Galileo will have saved 17 500 tons of CO2, saved over 4 500 lives and prevented the diversion of 120 000 flights in Europe.
“We are on the verge of a technological revolution with the growth of the Internet of Things. By 2020 150 billion objects will be interconnected, presenting a huge potential for geolocation,” he says. “To meet this increasing demand for precise geolocation positioning, no one system will be enough, meaning that the addition of Galileo to the system of systems will be fundamental – giving Europe a seat at the global GNSS table.”
There are over 1 000 satellites in space today, and by 2022 this number is expected to double. Of these, 14 are part of the Galileo programme, with more to be added in the coming months as the programme moves towards the launch of initial services later this year.
“Together, these satellites carry out such essential scientific tasks as monitoring the emission of greenhouse gases and their impact on climate change,” says the head of the European Commission Representation in France, Isabelle Jegouzo. “According to some accounts, up to 6 % of the European economy directly depends on these satellites, and the European Space Strategy that is currently being developed will leverage this power to enable Europe to have a true industrial policy.”
“Spatial data and spatial tools are essential to ensure a better command of our daily needs, as well as to find innovative solutions to tomorrow’s global challenges for humankind,” adds former astronaut and current adviser to the ESA Director General, Claudie Haigneré. “In addition, Europe’s space programmes put Europe, its scientists and its engineers at the forefront of research, knowledge and expertise in the 21st century.”
“Another reason for Europe’s space programmes is to defend the future of Europe and ensure it is alive for our children and grand-children,” concluded P. Goujon, Mayor Paris XV and Deputy.
The European Space Expo, organised by the European Commission and the GSA in collaboration with the European Space Agency provides information in several languages, with a focus on EU flagship programmes Galileo, European Geostationary Navigation Overlay Service (EGNOS) and Copernicus. Through these programmes, European citizens benefit from numerous services and applications, not only enhancing daily life, but also creating opportunities on world markets, and contributing to job creation and economic growth.
The event is free and open to the public. Learn more here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency is working together with rail and space industry stakeholders to enable the use of satellite-based positioning for railway signalling, in order to achieve cost and efficiency benefits, such as the reduction of infrastructure elements needed for train control systems.
At the heart of this multi-stakeholder initiative lies the European Train Control System (ETCS), which is now being adopted both in Europe and beyond, as one of the components of the European Rail Traffic Management System (ERTMS). At present, in ETCS the positioning of the train is based on “balise”, a physical element mounted at specific intervals along the railway track. The goal is to ensure that wherever possible, the physical balises can be replaced by virtual ones, based on precise, GNSS-based positioning without any operational or safety implications on the ETCS. The roadmap below summarises the main projects currently running and planned, as well as the involvement of the various stakeholders interested to achieve the objective of E-GNSS enabled ETCS together with the GSA.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency is working together with rail and space industry stakeholders to enable the use of satellite-based positioning for railway signalling, in order to achieve cost and efficiency benefits, such as the reduction of infrastructure elements needed for train control systems.
At the heart of this multi-stakeholder initiative lies the European Train Control System (ETCS), which is now being adopted both in Europe and beyond, as one of the components of the European Rail Traffic Management System (ERTMS). At present, in ETCS the positioning of the train is based on “balise”, a physical element mounted at specific intervals along the railway track. The goal is to ensure that wherever possible, the physical balises can be replaced by virtual ones, based on precise, GNSS-based positioning without any operational or safety implications on the ETCS. The roadmap below summarises the main projects currently running and planned, as well as the involvement of the various stakeholders interested to achieve the objective of E-GNSS enabled ETCS together with the GSA.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency is working together with rail and space industry stakeholders to enable the use of satellite-based positioning for railway signalling, in order to achieve cost and efficiency benefits, such as the reduction of infrastructure elements needed for train control systems.
At the heart of this multi-stakeholder initiative lies the European Train Control System (ETCS), which is now being adopted both in Europe and beyond, as one of the components of the European Rail Traffic Management System (ERTMS). At present, in ETCS the positioning of the train is based on “balise”, a physical element mounted at specific intervals along the railway track. The goal is to ensure that wherever possible, the physical balises can be replaced by virtual ones, based on precise, GNSS-based positioning without any operational or safety implications on the ETCS. The roadmap below summarises the main projects currently running and planned, as well as the involvement of the various stakeholders interested to achieve the objective of E-GNSS enabled ETCS together with the GSA.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency is working together with rail and space industry stakeholders to enable the use of satellite-based positioning for railway signalling, in order to achieve cost and efficiency benefits, such as the reduction of infrastructure elements needed for train control systems.
At the heart of this multi-stakeholder initiative lies the European Train Control System (ETCS), which is now being adopted both in Europe and beyond, as one of the components of the European Rail Traffic Management System (ERTMS). At present, in ETCS the positioning of the train is based on “balise”, a physical element mounted at specific intervals along the railway track. The goal is to ensure that wherever possible, the physical balises can be replaced by virtual ones, based on precise, GNSS-based positioning without any operational or safety implications on the ETCS. The roadmap below summarises the main projects currently running and planned, as well as the involvement of the various stakeholders interested to achieve the objective of E-GNSS enabled ETCS together with the GSA.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency is working together with rail and space industry stakeholders to enable the use of satellite-based positioning for railway signalling, in order to achieve cost and efficiency benefits, such as the reduction of infrastructure elements needed for train control systems.
At the heart of this multi-stakeholder initiative lies the European Train Control System (ETCS), which is now being adopted both in Europe and beyond, as one of the components of the European Rail Traffic Management System (ERTMS). At present, in ETCS the positioning of the train is based on “balise”, a physical element mounted at specific intervals along the railway track. The goal is to ensure that wherever possible, the physical balises can be replaced by virtual ones, based on precise, GNSS-based positioning without any operational or safety implications on the ETCS. The roadmap below summarises the main projects currently running and planned, as well as the involvement of the various stakeholders interested to achieve the objective of E-GNSS enabled ETCS together with the GSA.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency is working together with rail and space industry stakeholders to enable the use of satellite-based positioning for railway signalling, in order to achieve cost and efficiency benefits, such as the reduction of infrastructure elements needed for train control systems.
At the heart of this multi-stakeholder initiative lies the European Train Control System (ETCS), which is now being adopted both in Europe and beyond, as one of the components of the European Rail Traffic Management System (ERTMS). At present, in ETCS the positioning of the train is based on “balise”, a physical element mounted at specific intervals along the railway track. The goal is to ensure that wherever possible, the physical balises can be replaced by virtual ones, based on precise, GNSS-based positioning without any operational or safety implications on the ETCS. The roadmap below summarises the main projects currently running and planned, as well as the involvement of the various stakeholders interested to achieve the objective of E-GNSS enabled ETCS together with the GSA.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency is working together with rail and space industry stakeholders to enable the use of satellite-based positioning for railway signalling, in order to achieve cost and efficiency benefits, such as the reduction of infrastructure elements needed for train control systems.
At the heart of this multi-stakeholder initiative lies the European Train Control System (ETCS), which is now being adopted both in Europe and beyond, as one of the components of the European Rail Traffic Management System (ERTMS). At present, in ETCS the positioning of the train is based on “balise”, a physical element mounted at specific intervals along the railway track. The goal is to ensure that wherever possible, the physical balises can be replaced by virtual ones, based on precise, GNSS-based positioning without any operational or safety implications on the ETCS. The roadmap below summarises the main projects currently running and planned, as well as the involvement of the various stakeholders interested to achieve the objective of E-GNSS enabled ETCS together with the GSA.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
With the launch of Galileo Initial Services later this year, the Galileo Search and Rescue service for locating distress beacons will help operators respond to distress signals faster and more effectively.
The launch of Galileo Initial Services later this year will go together with the launch of the Galileo Search and Rescue (SAR) service. Galileo SAR – which will offer global coverage at sea, in the mountains, across the desert and in urban areas – will help SAR operators respond to a distress signal faster and more efficiently. At a recent SAR workshop held during the European Space Solutions conference, the European GNSS Agency (GSA) joined beacon manufacturers to provide an update.
The Galileo SAR service is Europe’s contribution to the upgrade of the international satellite-based COSPAS-SARSAT system. The Galileo system will be comprised of two components:
Currently, the ground segments are in place, covering Europe from Spitsbergen to the Canary Islands and Cyprus. Furthermore, five reference beacons to monitor system performance have been established. The SAR repeaters that are onboard all Galileo satellites are being commissioned according to the standards - published by Cospas-Sarsat. As stated by the GSA, initial testing on the localisation of distress beacons using a limited Galileo constellation has shown very encouraging results, with more substantial testing anticipated for Q4 2016 through Q1 2017. The forward link service is expected to be available by December 2016, and the return link service to follow sometime in late 2017/early 2018. The Galileo SAR service should be fully operational by 2020.
According to a recent GSA survey of beacon manufacturers, most beacons currently on the market already include a location protocol, and many manufacturers noted that they are preparing for multi-constellation global navigation satellite systems (GNSS). In fact, 70% of respondents specifically stated their intent to use Galileo in general, and 71% said they are thinking of using its return link service– meaning beacon manufacturers are clearly aware of Galileo and its SAR contributions.
Also read: GSA and EUROCAE working together to build a win-win strategy for Europe
“The return link service is a key factor for us, as having this possibility available is absolutely fundamental, particularly in areas that lack mobile phone coverage,” said Cyril Boissy of Syrlinks, who participated in a roundtable discussion of beacon manufacturers.
“Having the ability for this return link service to be transmitted to all GNSS receivers, not just beacons, will really open up new market possibilities and provide an opportunity for additional, even crowd-sourced, assistance for those in trouble,” added Daniel Katz of Israel-based MoBit Telecom Ltd.
To support further uptake of Galileo by beacon manufactures, the GSA is offering funding opportunities under its Fundamental Elements programme for receiver chipsets, along with the Horizon 2020 programme for research and innovation. Although SAR is not a specific topic, it is very much a part of the four calls topics of transport applications, mass-market applications, professional applications, and awareness and capacity building. Furthermore, the GSA will announce a specific call for MEOSAR beacon prototypes in October 2016.
Several research projects supported by the GSA under Horizon 2020 are already well on their way to creating end-to-end solutions based on the Galileo SAR. For example, the SAT406M project aims to improve the mobility and safety of citizens through the design and development of a wrist-worn beacon. The wearable device will include sensors to monitor the user’s physiological characteristics, with this information being available to emergency responders via an innovative signal modulation technique.
Likewise, the HELIOS project is developing beacons for end-to-end emergency readiness and response on land, at sea and in the air. A range of products resulting from the project, which are expected to be available mid-2019, will utilise the new COSPAS-SARSAT satellite system. The system includes around 72 medium-Earth orbit (MEO) satellites and will provide near-instantaneous alert detection with global coverage, enhanced location accuracy and a robust signal.
The GRICAS project is looking to develop and demonstrate an innovative global solution for abnormal operations – essentially an autonomous distress tracking (ADT) system for aircraft. Like HELIOS, the project is also making use of the new COSPAS-SARSAT MEO-satellites, along with beacons onboard the aircraft.
Last but not least, the Horizon 2020 MAGNIFIC project is promoting both European Geostationary Navigation Overlay Service (EGNOS) and Galileo across a wide range of businesses in Africa via six field trials. Two of these trials include SAR scenarios, one involving a multi-modal Galileo SAR in Cameroon applied to the security of personnel, goods and assets, and the other assessing the potential for a maritime Galileo SAR in Gabon.
Presentations of the workshop are available here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
With the launch of Galileo Initial Services later this year, the Galileo Search and Rescue service for locating distress beacons will help operators respond to distress signals faster and more effectively.
The launch of Galileo Initial Services later this year will go together with the launch of the Galileo Search and Rescue (SAR) service. Galileo SAR – which will offer global coverage at sea, in the mountains, across the desert and in urban areas – will help SAR operators respond to a distress signal faster and more efficiently. At a recent SAR workshop held during the European Space Solutions conference, the European GNSS Agency (GSA) joined beacon manufacturers to provide an update.
The Galileo SAR service is Europe’s contribution to the upgrade of the international satellite-based COSPAS-SARSAT system. The Galileo system will be comprised of two components:
Currently, the ground segments are in place, covering Europe from Spitsbergen to the Canary Islands and Cyprus. Furthermore, five reference beacons to monitor system performance have been established. The SAR repeaters that are onboard all Galileo satellites are being commissioned according to the standards - published by Cospas-Sarsat. As stated by the GSA, initial testing on the localisation of distress beacons using a limited Galileo constellation has shown very encouraging results, with more substantial testing anticipated for Q4 2016 through Q1 2017. The forward link service is expected to be available by December 2016, and the return link service to follow sometime in late 2017/early 2018. The Galileo SAR service should be fully operational by 2020.
According to a recent GSA survey of beacon manufacturers, most beacons currently on the market already include a location protocol, and many manufacturers noted that they are preparing for multi-constellation global navigation satellite systems (GNSS). In fact, 70% of respondents specifically stated their intent to use Galileo in general, and 71% said they are thinking of using its return link service– meaning beacon manufacturers are clearly aware of Galileo and its SAR contributions.
Also read: GSA and EUROCAE working together to build a win-win strategy for Europe
“The return link service is a key factor for us, as having this possibility available is absolutely fundamental, particularly in areas that lack mobile phone coverage,” said Cyril Boissy of Syrlinks, who participated in a roundtable discussion of beacon manufacturers.
“Having the ability for this return link service to be transmitted to all GNSS receivers, not just beacons, will really open up new market possibilities and provide an opportunity for additional, even crowd-sourced, assistance for those in trouble,” added Daniel Katz of Israel-based MoBit Telecom Ltd.
To support further uptake of Galileo by beacon manufactures, the GSA is offering funding opportunities under its Fundamental Elements programme for receiver chipsets, along with the Horizon 2020 programme for research and innovation. Although SAR is not a specific topic, it is very much a part of the four calls topics of transport applications, mass-market applications, professional applications, and awareness and capacity building. Furthermore, the GSA will announce a specific call for MEOSAR beacon prototypes in October 2016.
Several research projects supported by the GSA under Horizon 2020 are already well on their way to creating end-to-end solutions based on the Galileo SAR. For example, the SAT406M project aims to improve the mobility and safety of citizens through the design and development of a wrist-worn beacon. The wearable device will include sensors to monitor the user’s physiological characteristics, with this information being available to emergency responders via an innovative signal modulation technique.
Likewise, the HELIOS project is developing beacons for end-to-end emergency readiness and response on land, at sea and in the air. A range of products resulting from the project, which are expected to be available mid-2019, will utilise the new COSPAS-SARSAT satellite system. The system includes around 72 medium-Earth orbit (MEO) satellites and will provide near-instantaneous alert detection with global coverage, enhanced location accuracy and a robust signal.
The GRICAS project is looking to develop and demonstrate an innovative global solution for abnormal operations – essentially an autonomous distress tracking (ADT) system for aircraft. Like HELIOS, the project is also making use of the new COSPAS-SARSAT MEO-satellites, along with beacons onboard the aircraft.
Last but not least, the Horizon 2020 MAGNIFIC project is promoting both European Geostationary Navigation Overlay Service (EGNOS) and Galileo across a wide range of businesses in Africa via six field trials. Two of these trials include SAR scenarios, one involving a multi-modal Galileo SAR in Cameroon applied to the security of personnel, goods and assets, and the other assessing the potential for a maritime Galileo SAR in Gabon.
Presentations of the workshop are available here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
With the launch of Galileo Initial Services later this year, the Galileo Search and Rescue service for locating distress beacons will help operators respond to distress signals faster and more effectively.
The launch of Galileo Initial Services later this year will go together with the launch of the Galileo Search and Rescue (SAR) service. Galileo SAR – which will offer global coverage at sea, in the mountains, across the desert and in urban areas – will help SAR operators respond to a distress signal faster and more efficiently. At a recent SAR workshop held during the European Space Solutions conference, the European GNSS Agency (GSA) joined beacon manufacturers to provide an update.
The Galileo SAR service is Europe’s contribution to the upgrade of the international satellite-based COSPAS-SARSAT system. The Galileo system will be comprised of two components:
Currently, the ground segments are in place, covering Europe from Spitsbergen to the Canary Islands and Cyprus. Furthermore, five reference beacons to monitor system performance have been established. The SAR repeaters that are onboard all Galileo satellites are being commissioned according to the standards - published by Cospas-Sarsat. As stated by the GSA, initial testing on the localisation of distress beacons using a limited Galileo constellation has shown very encouraging results, with more substantial testing anticipated for Q4 2016 through Q1 2017. The forward link service is expected to be available by December 2016, and the return link service to follow sometime in late 2017/early 2018. The Galileo SAR service should be fully operational by 2020.
According to a recent GSA survey of beacon manufacturers, most beacons currently on the market already include a location protocol, and many manufacturers noted that they are preparing for multi-constellation global navigation satellite systems (GNSS). In fact, 70% of respondents specifically stated their intent to use Galileo in general, and 71% said they are thinking of using its return link service– meaning beacon manufacturers are clearly aware of Galileo and its SAR contributions.
Also read: GSA and EUROCAE working together to build a win-win strategy for Europe
“The return link service is a key factor for us, as having this possibility available is absolutely fundamental, particularly in areas that lack mobile phone coverage,” said Cyril Boissy of Syrlinks, who participated in a roundtable discussion of beacon manufacturers.
“Having the ability for this return link service to be transmitted to all GNSS receivers, not just beacons, will really open up new market possibilities and provide an opportunity for additional, even crowd-sourced, assistance for those in trouble,” added Daniel Katz of Israel-based MoBit Telecom Ltd.
To support further uptake of Galileo by beacon manufactures, the GSA is offering funding opportunities under its Fundamental Elements programme for receiver chipsets, along with the Horizon 2020 programme for research and innovation. Although SAR is not a specific topic, it is very much a part of the four calls topics of transport applications, mass-market applications, professional applications, and awareness and capacity building. Furthermore, the GSA will announce a specific call for MEOSAR beacon prototypes in October 2016.
Several research projects supported by the GSA under Horizon 2020 are already well on their way to creating end-to-end solutions based on the Galileo SAR. For example, the SAT406M project aims to improve the mobility and safety of citizens through the design and development of a wrist-worn beacon. The wearable device will include sensors to monitor the user’s physiological characteristics, with this information being available to emergency responders via an innovative signal modulation technique.
Likewise, the HELIOS project is developing beacons for end-to-end emergency readiness and response on land, at sea and in the air. A range of products resulting from the project, which are expected to be available mid-2019, will utilise the new COSPAS-SARSAT satellite system. The system includes around 72 medium-Earth orbit (MEO) satellites and will provide near-instantaneous alert detection with global coverage, enhanced location accuracy and a robust signal.
The GRICAS project is looking to develop and demonstrate an innovative global solution for abnormal operations – essentially an autonomous distress tracking (ADT) system for aircraft. Like HELIOS, the project is also making use of the new COSPAS-SARSAT MEO-satellites, along with beacons onboard the aircraft.
Last but not least, the Horizon 2020 MAGNIFIC project is promoting both European Geostationary Navigation Overlay Service (EGNOS) and Galileo across a wide range of businesses in Africa via six field trials. Two of these trials include SAR scenarios, one involving a multi-modal Galileo SAR in Cameroon applied to the security of personnel, goods and assets, and the other assessing the potential for a maritime Galileo SAR in Gabon.
Presentations of the workshop are available here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
With the launch of Galileo Initial Services later this year, the Galileo Search and Rescue service for locating distress beacons will help operators respond to distress signals faster and more effectively.
The launch of Galileo Initial Services later this year will go together with the launch of the Galileo Search and Rescue (SAR) service. Galileo SAR – which will offer global coverage at sea, in the mountains, across the desert and in urban areas – will help SAR operators respond to a distress signal faster and more efficiently. At a recent SAR workshop held during the European Space Solutions conference, the European GNSS Agency (GSA) joined beacon manufacturers to provide an update.
The Galileo SAR service is Europe’s contribution to the upgrade of the international satellite-based COSPAS-SARSAT system. The Galileo system will be comprised of two components:
Currently, the ground segments are in place, covering Europe from Spitsbergen to the Canary Islands and Cyprus. Furthermore, five reference beacons to monitor system performance have been established. The SAR repeaters that are onboard all Galileo satellites are being commissioned according to the standards - published by Cospas-Sarsat. As stated by the GSA, initial testing on the localisation of distress beacons using a limited Galileo constellation has shown very encouraging results, with more substantial testing anticipated for Q4 2016 through Q1 2017. The forward link service is expected to be available by December 2016, and the return link service to follow sometime in late 2017/early 2018. The Galileo SAR service should be fully operational by 2020.
According to a recent GSA survey of beacon manufacturers, most beacons currently on the market already include a location protocol, and many manufacturers noted that they are preparing for multi-constellation global navigation satellite systems (GNSS). In fact, 70% of respondents specifically stated their intent to use Galileo in general, and 71% said they are thinking of using its return link service– meaning beacon manufacturers are clearly aware of Galileo and its SAR contributions.
Also read: GSA and EUROCAE working together to build a win-win strategy for Europe
“The return link service is a key factor for us, as having this possibility available is absolutely fundamental, particularly in areas that lack mobile phone coverage,” said Cyril Boissy of Syrlinks, who participated in a roundtable discussion of beacon manufacturers.
“Having the ability for this return link service to be transmitted to all GNSS receivers, not just beacons, will really open up new market possibilities and provide an opportunity for additional, even crowd-sourced, assistance for those in trouble,” added Daniel Katz of Israel-based MoBit Telecom Ltd.
To support further uptake of Galileo by beacon manufactures, the GSA is offering funding opportunities under its Fundamental Elements programme for receiver chipsets, along with the Horizon 2020 programme for research and innovation. Although SAR is not a specific topic, it is very much a part of the four calls topics of transport applications, mass-market applications, professional applications, and awareness and capacity building. Furthermore, the GSA will announce a specific call for MEOSAR beacon prototypes in October 2016.
Several research projects supported by the GSA under Horizon 2020 are already well on their way to creating end-to-end solutions based on the Galileo SAR. For example, the SAT406M project aims to improve the mobility and safety of citizens through the design and development of a wrist-worn beacon. The wearable device will include sensors to monitor the user’s physiological characteristics, with this information being available to emergency responders via an innovative signal modulation technique.
Likewise, the HELIOS project is developing beacons for end-to-end emergency readiness and response on land, at sea and in the air. A range of products resulting from the project, which are expected to be available mid-2019, will utilise the new COSPAS-SARSAT satellite system. The system includes around 72 medium-Earth orbit (MEO) satellites and will provide near-instantaneous alert detection with global coverage, enhanced location accuracy and a robust signal.
The GRICAS project is looking to develop and demonstrate an innovative global solution for abnormal operations – essentially an autonomous distress tracking (ADT) system for aircraft. Like HELIOS, the project is also making use of the new COSPAS-SARSAT MEO-satellites, along with beacons onboard the aircraft.
Last but not least, the Horizon 2020 MAGNIFIC project is promoting both European Geostationary Navigation Overlay Service (EGNOS) and Galileo across a wide range of businesses in Africa via six field trials. Two of these trials include SAR scenarios, one involving a multi-modal Galileo SAR in Cameroon applied to the security of personnel, goods and assets, and the other assessing the potential for a maritime Galileo SAR in Gabon.
Presentations of the workshop are available here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
With the launch of Galileo Initial Services later this year, the Galileo Search and Rescue service for locating distress beacons will help operators respond to distress signals faster and more effectively.
The launch of Galileo Initial Services later this year will go together with the launch of the Galileo Search and Rescue (SAR) service. Galileo SAR – which will offer global coverage at sea, in the mountains, across the desert and in urban areas – will help SAR operators respond to a distress signal faster and more efficiently. At a recent SAR workshop held during the European Space Solutions conference, the European GNSS Agency (GSA) joined beacon manufacturers to provide an update.
The Galileo SAR service is Europe’s contribution to the upgrade of the international satellite-based COSPAS-SARSAT system. The Galileo system will be comprised of two components:
Currently, the ground segments are in place, covering Europe from Spitsbergen to the Canary Islands and Cyprus. Furthermore, five reference beacons to monitor system performance have been established. The SAR repeaters that are onboard all Galileo satellites are being commissioned according to the standards - published by Cospas-Sarsat. As stated by the GSA, initial testing on the localisation of distress beacons using a limited Galileo constellation has shown very encouraging results, with more substantial testing anticipated for Q4 2016 through Q1 2017. The forward link service is expected to be available by December 2016, and the return link service to follow sometime in late 2017/early 2018. The Galileo SAR service should be fully operational by 2020.
According to a recent GSA survey of beacon manufacturers, most beacons currently on the market already include a location protocol, and many manufacturers noted that they are preparing for multi-constellation global navigation satellite systems (GNSS). In fact, 70% of respondents specifically stated their intent to use Galileo in general, and 71% said they are thinking of using its return link service– meaning beacon manufacturers are clearly aware of Galileo and its SAR contributions.
Also read: GSA and EUROCAE working together to build a win-win strategy for Europe
“The return link service is a key factor for us, as having this possibility available is absolutely fundamental, particularly in areas that lack mobile phone coverage,” said Cyril Boissy of Syrlinks, who participated in a roundtable discussion of beacon manufacturers.
“Having the ability for this return link service to be transmitted to all GNSS receivers, not just beacons, will really open up new market possibilities and provide an opportunity for additional, even crowd-sourced, assistance for those in trouble,” added Daniel Katz of Israel-based MoBit Telecom Ltd.
To support further uptake of Galileo by beacon manufactures, the GSA is offering funding opportunities under its Fundamental Elements programme for receiver chipsets, along with the Horizon 2020 programme for research and innovation. Although SAR is not a specific topic, it is very much a part of the four calls topics of transport applications, mass-market applications, professional applications, and awareness and capacity building. Furthermore, the GSA will announce a specific call for MEOSAR beacon prototypes in October 2016.
Several research projects supported by the GSA under Horizon 2020 are already well on their way to creating end-to-end solutions based on the Galileo SAR. For example, the SAT406M project aims to improve the mobility and safety of citizens through the design and development of a wrist-worn beacon. The wearable device will include sensors to monitor the user’s physiological characteristics, with this information being available to emergency responders via an innovative signal modulation technique.
Likewise, the HELIOS project is developing beacons for end-to-end emergency readiness and response on land, at sea and in the air. A range of products resulting from the project, which are expected to be available mid-2019, will utilise the new COSPAS-SARSAT satellite system. The system includes around 72 medium-Earth orbit (MEO) satellites and will provide near-instantaneous alert detection with global coverage, enhanced location accuracy and a robust signal.
The GRICAS project is looking to develop and demonstrate an innovative global solution for abnormal operations – essentially an autonomous distress tracking (ADT) system for aircraft. Like HELIOS, the project is also making use of the new COSPAS-SARSAT MEO-satellites, along with beacons onboard the aircraft.
Last but not least, the Horizon 2020 MAGNIFIC project is promoting both European Geostationary Navigation Overlay Service (EGNOS) and Galileo across a wide range of businesses in Africa via six field trials. Two of these trials include SAR scenarios, one involving a multi-modal Galileo SAR in Cameroon applied to the security of personnel, goods and assets, and the other assessing the potential for a maritime Galileo SAR in Gabon.
Presentations of the workshop are available here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) announces that Qualcomm Technologies, a US-based leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its product portfolio.
In a major boost for Galileo uptake in the location based services (LBS) market segment, today the GSA announces that US-based Qalcomm Technologies, a world leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing and automotive applications. The addition of Galileo to the company’s growing number of location-based applications and services will reduce time-to-first-fix, improve robustness and increase accuracy – particularly in challenging urban environments – ultimately providing the end user with an improved location performance.
“Accurate, reliable, and rapid position location is an important part of the mobile experience,” says Qualcomm Technologies, Inc. Senior Vice President Product Management Alex Katouzian. “Qualcomm Technologies is helping to improve consumers’ experiences with location-based services by adding Galileo support to our IZat location platform and deploying it broadly across our modem and application processor portfolios.”
The Galileo-enhanced Qualcomm IZat Location Platform will enable automotive and telematics solution providers to satisfy an important component of the European eCall mandate ahead of the March 2018 deadline.
“We are happy to announce support for the European Galileo satellite navigation system and to see that longstanding efforts and cooperation between the GSA, the European Commission, Qualcomm Technologies and the mobile ecosystem are delivering a key component of the European Digital Single Market,” says Qualcomm Europe President Enrico Salvatori. “eCall and Galileo, together with upcoming advances in automotive connectivity, pave the way to enhancing road safety and delivering new services to consumers.”
“The Galileo constellation relies on 14 satellites that are in orbit today, and following our cooperation on Galileo integration, we welcome the announcement that Qualcomm Technologies is contributing to the rapid adoption of Galileo, in view of the launch of Initial Services by the end of 2016,” says GSA Executive Director Carlo des Dorides. “The Galileo signal has demonstrated high performance and we believe it will enhance the user experience by providing more accurate and robust positioning”.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) announces that Qualcomm Technologies, a US-based leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its product portfolio.
In a major boost for Galileo uptake in the location based services (LBS) market segment, today the GSA announces that US-based Qalcomm Technologies, a world leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing and automotive applications. The addition of Galileo to the company’s growing number of location-based applications and services will reduce time-to-first-fix, improve robustness and increase accuracy – particularly in challenging urban environments – ultimately providing the end user with an improved location performance.
“Accurate, reliable, and rapid position location is an important part of the mobile experience,” says Qualcomm Technologies, Inc. Senior Vice President Product Management Alex Katouzian. “Qualcomm Technologies is helping to improve consumers’ experiences with location-based services by adding Galileo support to our IZat location platform and deploying it broadly across our modem and application processor portfolios.”
The Galileo-enhanced Qualcomm IZat Location Platform will enable automotive and telematics solution providers to satisfy an important component of the European eCall mandate ahead of the March 2018 deadline.
“We are happy to announce support for the European Galileo satellite navigation system and to see that longstanding efforts and cooperation between the GSA, the European Commission, Qualcomm Technologies and the mobile ecosystem are delivering a key component of the European Digital Single Market,” says Qualcomm Europe President Enrico Salvatori. “eCall and Galileo, together with upcoming advances in automotive connectivity, pave the way to enhancing road safety and delivering new services to consumers.”
“The Galileo constellation relies on 14 satellites that are in orbit today, and following our cooperation on Galileo integration, we welcome the announcement that Qualcomm Technologies is contributing to the rapid adoption of Galileo, in view of the launch of Initial Services by the end of 2016,” says GSA Executive Director Carlo des Dorides. “The Galileo signal has demonstrated high performance and we believe it will enhance the user experience by providing more accurate and robust positioning”.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) announces that Qualcomm Technologies, a US-based leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its product portfolio.
In a major boost for Galileo uptake in the location based services (LBS) market segment, today the GSA announces that US-based Qalcomm Technologies, a world leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing and automotive applications. The addition of Galileo to the company’s growing number of location-based applications and services will reduce time-to-first-fix, improve robustness and increase accuracy – particularly in challenging urban environments – ultimately providing the end user with an improved location performance.
“Accurate, reliable, and rapid position location is an important part of the mobile experience,” says Qualcomm Technologies, Inc. Senior Vice President Product Management Alex Katouzian. “Qualcomm Technologies is helping to improve consumers’ experiences with location-based services by adding Galileo support to our IZat location platform and deploying it broadly across our modem and application processor portfolios.”
The Galileo-enhanced Qualcomm IZat Location Platform will enable automotive and telematics solution providers to satisfy an important component of the European eCall mandate ahead of the March 2018 deadline.
“We are happy to announce support for the European Galileo satellite navigation system and to see that longstanding efforts and cooperation between the GSA, the European Commission, Qualcomm Technologies and the mobile ecosystem are delivering a key component of the European Digital Single Market,” says Qualcomm Europe President Enrico Salvatori. “eCall and Galileo, together with upcoming advances in automotive connectivity, pave the way to enhancing road safety and delivering new services to consumers.”
“The Galileo constellation relies on 14 satellites that are in orbit today, and following our cooperation on Galileo integration, we welcome the announcement that Qualcomm Technologies is contributing to the rapid adoption of Galileo, in view of the launch of Initial Services by the end of 2016,” says GSA Executive Director Carlo des Dorides. “The Galileo signal has demonstrated high performance and we believe it will enhance the user experience by providing more accurate and robust positioning”.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) announces that Qualcomm Technologies, a US-based leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its product portfolio.
In a major boost for Galileo uptake in the location based services (LBS) market segment, today the GSA announces that US-based Qalcomm Technologies, a world leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing and automotive applications. The addition of Galileo to the company’s growing number of location-based applications and services will reduce time-to-first-fix, improve robustness and increase accuracy – particularly in challenging urban environments – ultimately providing the end user with an improved location performance.
“Accurate, reliable, and rapid position location is an important part of the mobile experience,” says Qualcomm Technologies, Inc. Senior Vice President Product Management Alex Katouzian. “Qualcomm Technologies is helping to improve consumers’ experiences with location-based services by adding Galileo support to our IZat location platform and deploying it broadly across our modem and application processor portfolios.”
The Galileo-enhanced Qualcomm IZat Location Platform will enable automotive and telematics solution providers to satisfy an important component of the European eCall mandate ahead of the March 2018 deadline.
“We are happy to announce support for the European Galileo satellite navigation system and to see that longstanding efforts and cooperation between the GSA, the European Commission, Qualcomm Technologies and the mobile ecosystem are delivering a key component of the European Digital Single Market,” says Qualcomm Europe President Enrico Salvatori. “eCall and Galileo, together with upcoming advances in automotive connectivity, pave the way to enhancing road safety and delivering new services to consumers.”
“The Galileo constellation relies on 14 satellites that are in orbit today, and following our cooperation on Galileo integration, we welcome the announcement that Qualcomm Technologies is contributing to the rapid adoption of Galileo, in view of the launch of Initial Services by the end of 2016,” says GSA Executive Director Carlo des Dorides. “The Galileo signal has demonstrated high performance and we believe it will enhance the user experience by providing more accurate and robust positioning”.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) announces that Qualcomm Technologies, a US-based leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its product portfolio.
In a major boost for Galileo uptake in the location based services (LBS) market segment, today the GSA announces that US-based Qalcomm Technologies, a world leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing and automotive applications. The addition of Galileo to the company’s growing number of location-based applications and services will reduce time-to-first-fix, improve robustness and increase accuracy – particularly in challenging urban environments – ultimately providing the end user with an improved location performance.
“Accurate, reliable, and rapid position location is an important part of the mobile experience,” says Qualcomm Technologies, Inc. Senior Vice President Product Management Alex Katouzian. “Qualcomm Technologies is helping to improve consumers’ experiences with location-based services by adding Galileo support to our IZat location platform and deploying it broadly across our modem and application processor portfolios.”
The Galileo-enhanced Qualcomm IZat Location Platform will enable automotive and telematics solution providers to satisfy an important component of the European eCall mandate ahead of the March 2018 deadline.
“We are happy to announce support for the European Galileo satellite navigation system and to see that longstanding efforts and cooperation between the GSA, the European Commission, Qualcomm Technologies and the mobile ecosystem are delivering a key component of the European Digital Single Market,” says Qualcomm Europe President Enrico Salvatori. “eCall and Galileo, together with upcoming advances in automotive connectivity, pave the way to enhancing road safety and delivering new services to consumers.”
“The Galileo constellation relies on 14 satellites that are in orbit today, and following our cooperation on Galileo integration, we welcome the announcement that Qualcomm Technologies is contributing to the rapid adoption of Galileo, in view of the launch of Initial Services by the end of 2016,” says GSA Executive Director Carlo des Dorides. “The Galileo signal has demonstrated high performance and we believe it will enhance the user experience by providing more accurate and robust positioning”.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) announces that Qualcomm Technologies, a US-based leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its product portfolio.
In a major boost for Galileo uptake in the location based services (LBS) market segment, today the GSA announces that US-based Qalcomm Technologies, a world leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing and automotive applications. The addition of Galileo to the company’s growing number of location-based applications and services will reduce time-to-first-fix, improve robustness and increase accuracy – particularly in challenging urban environments – ultimately providing the end user with an improved location performance.
“Accurate, reliable, and rapid position location is an important part of the mobile experience,” says Qualcomm Technologies, Inc. Senior Vice President Product Management Alex Katouzian. “Qualcomm Technologies is helping to improve consumers’ experiences with location-based services by adding Galileo support to our IZat location platform and deploying it broadly across our modem and application processor portfolios.”
The Galileo-enhanced Qualcomm IZat Location Platform will enable automotive and telematics solution providers to satisfy an important component of the European eCall mandate ahead of the March 2018 deadline.
“We are happy to announce support for the European Galileo satellite navigation system and to see that longstanding efforts and cooperation between the GSA, the European Commission, Qualcomm Technologies and the mobile ecosystem are delivering a key component of the European Digital Single Market,” says Qualcomm Europe President Enrico Salvatori. “eCall and Galileo, together with upcoming advances in automotive connectivity, pave the way to enhancing road safety and delivering new services to consumers.”
“The Galileo constellation relies on 14 satellites that are in orbit today, and following our cooperation on Galileo integration, we welcome the announcement that Qualcomm Technologies is contributing to the rapid adoption of Galileo, in view of the launch of Initial Services by the end of 2016,” says GSA Executive Director Carlo des Dorides. “The Galileo signal has demonstrated high performance and we believe it will enhance the user experience by providing more accurate and robust positioning”.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
With the launch of Galileo Initial Services later this year, the Galileo Search and Rescue service for locating distress beacons will help operators respond to distress signals faster and more effectively.
The launch of Galileo Initial Services later this year will go together with the launch of the Galileo Search and Rescue (SAR) service. Galileo SAR – which will offer global coverage at sea, in the mountains, across the desert and in urban areas – will help SAR operators respond to a distress signal faster and more efficiently. At a recent SAR workshop held during the European Space Solutions conference, the European GNSS Agency (GSA) joined beacon manufacturers to provide an update.
The Galileo SAR service is Europe’s contribution to the upgrade of the international satellite-based COSPAS-SARSAT system. The Galileo system will be comprised of two components:
Currently, the ground segments are in place, covering Europe from Spitsbergen to the Canary Islands and Cyprus. Furthermore, five reference beacons to monitor system performance have been established. The SAR repeaters that are onboard all Galileo satellites are being commissioned according to the standards - published by Cospas-Sarsat. As stated by the GSA, initial testing on the localisation of distress beacons using a limited Galileo constellation has shown very encouraging results, with more substantial testing anticipated for Q4 2016 through Q1 2017. The forward link service is expected to be available by December 2016, and the return link service to follow sometime in late 2017/early 2018. The Galileo SAR service should be fully operational by 2020.
According to a recent GSA survey of beacon manufacturers, most beacons currently on the market already include a location protocol, and many manufacturers noted that they are preparing for multi-constellation global navigation satellite systems (GNSS). In fact, 70% of respondents specifically stated their intent to use Galileo in general, and 71% said they are thinking of using its return link service– meaning beacon manufacturers are clearly aware of Galileo and its SAR contributions.
Also read: GSA and EUROCAE working together to build a win-win strategy for Europe
“The return link service is a key factor for us, as having this possibility available is absolutely fundamental, particularly in areas that lack mobile phone coverage,” said Cyril Boissy of Syrlinks, who participated in a roundtable discussion of beacon manufacturers.
“Having the ability for this return link service to be transmitted to all GNSS receivers, not just beacons, will really open up new market possibilities and provide an opportunity for additional, even crowd-sourced, assistance for those in trouble,” added Daniel Katz of Israel-based MoBit Telecom Ltd.
To support further uptake of Galileo by beacon manufactures, the GSA is offering funding opportunities under its Fundamental Elements programme for receiver chipsets, along with the Horizon 2020 programme for research and innovation. Although SAR is not a specific topic, it is very much a part of the four calls topics of transport applications, mass-market applications, professional applications, and awareness and capacity building. Furthermore, the GSA will announce a specific call for MEOSAR beacon prototypes in October 2016.
Several research projects supported by the GSA under Horizon 2020 are already well on their way to creating end-to-end solutions based on the Galileo SAR. For example, the SAT406M project aims to improve the mobility and safety of citizens through the design and development of a wrist-worn beacon. The wearable device will include sensors to monitor the user’s physiological characteristics, with this information being available to emergency responders via an innovative signal modulation technique.
Likewise, the HELIOS project is developing beacons for end-to-end emergency readiness and response on land, at sea and in the air. A range of products resulting from the project, which are expected to be available mid-2019, will utilise the new COSPAS-SARSAT satellite system. The system includes around 72 medium-Earth orbit (MEO) satellites and will provide near-instantaneous alert detection with global coverage, enhanced location accuracy and a robust signal.
The GRICAS project is looking to develop and demonstrate an innovative global solution for abnormal operations – essentially an autonomous distress tracking (ADT) system for aircraft. Like HELIOS, the project is also making use of the new COSPAS-SARSAT MEO-satellites, along with beacons onboard the aircraft.
Last but not least, the Horizon 2020 MAGNIFIC project is promoting both European Geostationary Navigation Overlay Service (EGNOS) and Galileo across a wide range of businesses in Africa via six field trials. Two of these trials include SAR scenarios, one involving a multi-modal Galileo SAR in Cameroon applied to the security of personnel, goods and assets, and the other assessing the potential for a maritime Galileo SAR in Gabon.
Presentations of the workshop are available here.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) announces that Qualcomm Technologies, a US-based leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its product portfolio.
In a major boost for Galileo uptake in the location based services (LBS) market segment, today the GSA announces that US-based Qalcomm Technologies, a world leader in 3G, 4G and next-generation wireless technologies, is adding support for Galileo across its Snapdragon processor and modern portfolios for smartphone, computing and automotive applications. The addition of Galileo to the company’s growing number of location-based applications and services will reduce time-to-first-fix, improve robustness and increase accuracy – particularly in challenging urban environments – ultimately providing the end user with an improved location performance.
“Accurate, reliable, and rapid position location is an important part of the mobile experience,” says Qualcomm Technologies, Inc. Senior Vice President Product Management Alex Katouzian. “Qualcomm Technologies is helping to improve consumers’ experiences with location-based services by adding Galileo support to our IZat location platform and deploying it broadly across our modem and application processor portfolios.”
The Galileo-enhanced Qualcomm IZat Location Platform will enable automotive and telematics solution providers to satisfy an important component of the European eCall mandate ahead of the March 2018 deadline.
“We are happy to announce support for the European Galileo satellite navigation system and to see that longstanding efforts and cooperation between the GSA, the European Commission, Qualcomm Technologies and the mobile ecosystem are delivering a key component of the European Digital Single Market,” says Qualcomm Europe President Enrico Salvatori. “eCall and Galileo, together with upcoming advances in automotive connectivity, pave the way to enhancing road safety and delivering new services to consumers.”
“The Galileo constellation relies on 14 satellites that are in orbit today, and following our cooperation on Galileo integration, we welcome the announcement that Qualcomm Technologies is contributing to the rapid adoption of Galileo, in view of the launch of Initial Services by the end of 2016,” says GSA Executive Director Carlo des Dorides. “The Galileo signal has demonstrated high performance and we believe it will enhance the user experience by providing more accurate and robust positioning”.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
For the second time, the European GNSS Agency is sponsoring a special prize dedicated to Galileo, EGNOS and Copernicus as part of the annual Council of Geodetic Surveyors’ Young Surveyors prize.
With a cash prize of EUR 1 000, the 2016 edition of the Council of Geodetic Surveyors’ (CLGE) Young Surveyors prize is now open for submissions. Once again, the European GNSS Agency (GSA) is sponsoring a special prize for entries that show a dedicated use of Galileo, the European Geostationary Navigation Overlay Service (EGNOS) or Copernicus. The contest is open to all bachelor and masters students in the surveying sector or a related field.
Submissions must be received no later than 8 August 2016.
Last year’s winning entry came from Laura Van de Vyvere from Liège University and M3 Systems, Belgium, for her project “Cycle Slips Detection in Quad-Frequency Mode: Galileo’s Contribution to an Efficient Approach under High Ionospheric Activity”. Through an innovative technique developed by Van de Vyvere, the project uses Galileo’s high number of carrier frequencies to improve positioning compared to other GNSS programmes.
The GSA and the CLGE have been working together for several years, a cooperation that is likely to grow as the Galileo constellation moves towards initial services later this year. In 2015, in support of this cooperation, the two organisations launched this special prize as part of the CLGE’s annual Young Surveyors prize.
To participate, proposals should include an academic paper describing the project and how it benefits from Galileo, EGNOS or Copernicus (or in combination). Although papers may be an abridged version of a more complete thesis, the paper should describe the project in full, including financial and logistical aspects. Papers should not exceed 4 000 words, including an abstract of 300 words, and must be written in English.
Submissions will be judged by a panel of CLGE delegates representing professional, academic and associated sectors. The winning entry will receive an award worth EUR 1 000 as well as a CLGE certificate during a special ceremony to be held on 11 October 2016 during the INTERGEO event in Hamburg, Germany.
More information can be found here.
Sign up to GSA Today to receive updates on the next contest.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
For the second time, the European GNSS Agency is sponsoring a special prize dedicated to Galileo, EGNOS and Copernicus as part of the annual Council of Geodetic Surveyors’ Young Surveyors prize.
With a cash prize of EUR 1 000, the 2016 edition of the Council of Geodetic Surveyors’ (CLGE) Young Surveyors prize is now open for submissions. Once again, the European GNSS Agency (GSA) is sponsoring a special prize for entries that show a dedicated use of Galileo, the European Geostationary Navigation Overlay Service (EGNOS) or Copernicus. The contest is open to all bachelor and masters students in the surveying sector or a related field.
Submissions must be received no later than 8 August 2016.
Last year’s winning entry came from Laura Van de Vyvere from Liège University and M3 Systems, Belgium, for her project “Cycle Slips Detection in Quad-Frequency Mode: Galileo’s Contribution to an Efficient Approach under High Ionospheric Activity”. Through an innovative technique developed by Van de Vyvere, the project uses Galileo’s high number of carrier frequencies to improve positioning compared to other GNSS programmes.
The GSA and the CLGE have been working together for several years, a cooperation that is likely to grow as the Galileo constellation moves towards initial services later this year. In 2015, in support of this cooperation, the two organisations launched this special prize as part of the CLGE’s annual Young Surveyors prize.
To participate, proposals should include an academic paper describing the project and how it benefits from Galileo, EGNOS or Copernicus (or in combination). Although papers may be an abridged version of a more complete thesis, the paper should describe the project in full, including financial and logistical aspects. Papers should not exceed 4 000 words, including an abstract of 300 words, and must be written in English.
Submissions will be judged by a panel of CLGE delegates representing professional, academic and associated sectors. The winning entry will receive an award worth EUR 1 000 as well as a CLGE certificate during a special ceremony to be held on 11 October 2016 during the INTERGEO event in Hamburg, Germany.
More information can be found here.
Sign up to GSA Today to receive updates on the next contest.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
For the second time, the European GNSS Agency is sponsoring a special prize dedicated to Galileo, EGNOS and Copernicus as part of the annual Council of Geodetic Surveyors’ Young Surveyors prize.
With a cash prize of EUR 1 000, the 2016 edition of the Council of Geodetic Surveyors’ (CLGE) Young Surveyors prize is now open for submissions. Once again, the European GNSS Agency (GSA) is sponsoring a special prize for entries that show a dedicated use of Galileo, the European Geostationary Navigation Overlay Service (EGNOS) or Copernicus. The contest is open to all bachelor and masters students in the surveying sector or a related field.
Submissions must be received no later than 8 August 2016.
Last year’s winning entry came from Laura Van de Vyvere from Liège University and M3 Systems, Belgium, for her project “Cycle Slips Detection in Quad-Frequency Mode: Galileo’s Contribution to an Efficient Approach under High Ionospheric Activity”. Through an innovative technique developed by Van de Vyvere, the project uses Galileo’s high number of carrier frequencies to improve positioning compared to other GNSS programmes.
The GSA and the CLGE have been working together for several years, a cooperation that is likely to grow as the Galileo constellation moves towards initial services later this year. In 2015, in support of this cooperation, the two organisations launched this special prize as part of the CLGE’s annual Young Surveyors prize.
To participate, proposals should include an academic paper describing the project and how it benefits from Galileo, EGNOS or Copernicus (or in combination). Although papers may be an abridged version of a more complete thesis, the paper should describe the project in full, including financial and logistical aspects. Papers should not exceed 4 000 words, including an abstract of 300 words, and must be written in English.
Submissions will be judged by a panel of CLGE delegates representing professional, academic and associated sectors. The winning entry will receive an award worth EUR 1 000 as well as a CLGE certificate during a special ceremony to be held on 11 October 2016 during the INTERGEO event in Hamburg, Germany.
More information can be found here.
Sign up to GSA Today to receive updates on the next contest.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
For the second time, the European GNSS Agency is sponsoring a special prize dedicated to Galileo, EGNOS and Copernicus as part of the annual Council of Geodetic Surveyors’ Young Surveyors prize.
With a cash prize of EUR 1 000, the 2016 edition of the Council of Geodetic Surveyors’ (CLGE) Young Surveyors prize is now open for submissions. Once again, the European GNSS Agency (GSA) is sponsoring a special prize for entries that show a dedicated use of Galileo, the European Geostationary Navigation Overlay Service (EGNOS) or Copernicus. The contest is open to all bachelor and masters students in the surveying sector or a related field.
Submissions must be received no later than 8 August 2016.
Last year’s winning entry came from Laura Van de Vyvere from Liège University and M3 Systems, Belgium, for her project “Cycle Slips Detection in Quad-Frequency Mode: Galileo’s Contribution to an Efficient Approach under High Ionospheric Activity”. Through an innovative technique developed by Van de Vyvere, the project uses Galileo’s high number of carrier frequencies to improve positioning compared to other GNSS programmes.
The GSA and the CLGE have been working together for several years, a cooperation that is likely to grow as the Galileo constellation moves towards initial services later this year. In 2015, in support of this cooperation, the two organisations launched this special prize as part of the CLGE’s annual Young Surveyors prize.
To participate, proposals should include an academic paper describing the project and how it benefits from Galileo, EGNOS or Copernicus (or in combination). Although papers may be an abridged version of a more complete thesis, the paper should describe the project in full, including financial and logistical aspects. Papers should not exceed 4 000 words, including an abstract of 300 words, and must be written in English.
Submissions will be judged by a panel of CLGE delegates representing professional, academic and associated sectors. The winning entry will receive an award worth EUR 1 000 as well as a CLGE certificate during a special ceremony to be held on 11 October 2016 during the INTERGEO event in Hamburg, Germany.
More information can be found here.
Sign up to GSA Today to receive updates on the next contest.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
For the second time, the European GNSS Agency is sponsoring a special prize dedicated to Galileo, EGNOS and Copernicus as part of the annual Council of Geodetic Surveyors’ Young Surveyors prize.
With a cash prize of EUR 1 000, the 2016 edition of the Council of Geodetic Surveyors’ (CLGE) Young Surveyors prize is now open for submissions. Once again, the European GNSS Agency (GSA) is sponsoring a special prize for entries that show a dedicated use of Galileo, the European Geostationary Navigation Overlay Service (EGNOS) or Copernicus. The contest is open to all bachelor and masters students in the surveying sector or a related field.
Submissions must be received no later than 8 August 2016.
Last year’s winning entry came from Laura Van de Vyvere from Liège University and M3 Systems, Belgium, for her project “Cycle Slips Detection in Quad-Frequency Mode: Galileo’s Contribution to an Efficient Approach under High Ionospheric Activity”. Through an innovative technique developed by Van de Vyvere, the project uses Galileo’s high number of carrier frequencies to improve positioning compared to other GNSS programmes.
The GSA and the CLGE have been working together for several years, a cooperation that is likely to grow as the Galileo constellation moves towards initial services later this year. In 2015, in support of this cooperation, the two organisations launched this special prize as part of the CLGE’s annual Young Surveyors prize.
To participate, proposals should include an academic paper describing the project and how it benefits from Galileo, EGNOS or Copernicus (or in combination). Although papers may be an abridged version of a more complete thesis, the paper should describe the project in full, including financial and logistical aspects. Papers should not exceed 4 000 words, including an abstract of 300 words, and must be written in English.
Submissions will be judged by a panel of CLGE delegates representing professional, academic and associated sectors. The winning entry will receive an award worth EUR 1 000 as well as a CLGE certificate during a special ceremony to be held on 11 October 2016 during the INTERGEO event in Hamburg, Germany.
More information can be found here.
Sign up to GSA Today to receive updates on the next contest.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
For the second time, the European GNSS Agency is sponsoring a special prize dedicated to Galileo, EGNOS and Copernicus as part of the annual Council of Geodetic Surveyors’ Young Surveyors prize.
With a cash prize of EUR 1 000, the 2016 edition of the Council of Geodetic Surveyors’ (CLGE) Young Surveyors prize is now open for submissions. Once again, the European GNSS Agency (GSA) is sponsoring a special prize for entries that show a dedicated use of Galileo, the European Geostationary Navigation Overlay Service (EGNOS) or Copernicus. The contest is open to all bachelor and masters students in the surveying sector or a related field.
Submissions must be received no later than 8 August 2016.
Last year’s winning entry came from Laura Van de Vyvere from Liège University and M3 Systems, Belgium, for her project “Cycle Slips Detection in Quad-Frequency Mode: Galileo’s Contribution to an Efficient Approach under High Ionospheric Activity”. Through an innovative technique developed by Van de Vyvere, the project uses Galileo’s high number of carrier frequencies to improve positioning compared to other GNSS programmes.
The GSA and the CLGE have been working together for several years, a cooperation that is likely to grow as the Galileo constellation moves towards initial services later this year. In 2015, in support of this cooperation, the two organisations launched this special prize as part of the CLGE’s annual Young Surveyors prize.
To participate, proposals should include an academic paper describing the project and how it benefits from Galileo, EGNOS or Copernicus (or in combination). Although papers may be an abridged version of a more complete thesis, the paper should describe the project in full, including financial and logistical aspects. Papers should not exceed 4 000 words, including an abstract of 300 words, and must be written in English.
Submissions will be judged by a panel of CLGE delegates representing professional, academic and associated sectors. The winning entry will receive an award worth EUR 1 000 as well as a CLGE certificate during a special ceremony to be held on 11 October 2016 during the INTERGEO event in Hamburg, Germany.
More information can be found here.
Sign up to GSA Today to receive updates on the next contest.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) recently took the EASTLOG stage to discuss the important role that EGNOS and Galileo play within the logistics sector.
Speaking at EASTLOG, Central and Eastern Europe’s largest supply chain and logistics tradeshow, the GSA highlighted the important role that EGNOS and Galileo play within the logistics sector.
According to the GSA, in a market that is as demanding and competitive as that of global logistics, space can provide cost-efficient solutions. “Global navigation satellite systems, or GNSS, are becoming increasingly relied upon by many different logistic-orientated applications, including the very popular track and trace applications and such sophisticated services as proof of delivery, geofencing and monitoring the transport of dangerous goods,” says one GSA representative. “Many of these applications and services demand a high level of accuracy and integrity, and in Europe this is provided by EGNOS and Galileo.”
Based on conversations with various logistic stakeholders during the event, it is clear that service providers in this sector are most interested in solutions that offer additional cost savings. Here the GSA highlighted various GNSS-enabled solutions already on the market, including driver advisory systems that provide additional fuel savings and, in the near future, the autonomous vehicle. Of particular interest is the so-called ‘supply chain visibility’ concept, where GNSS, combined with telecommunication technology, is capable of providing an increased level of clarity to the chain of custody and the possibility to geofence transport corridors.
“The possibility of having such authenticated positioning information is very important to the logistics sector, thus the interest in the potential of Galileo to offer even more cost-efficient and reliable positioning continues to grow,” noted one attendee.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) recently took the EASTLOG stage to discuss the important role that EGNOS and Galileo play within the logistics sector.
Speaking at EASTLOG, Central and Eastern Europe’s largest supply chain and logistics tradeshow, the GSA highlighted the important role that EGNOS and Galileo play within the logistics sector.
According to the GSA, in a market that is as demanding and competitive as that of global logistics, space can provide cost-efficient solutions. “Global navigation satellite systems, or GNSS, are becoming increasingly relied upon by many different logistic-orientated applications, including the very popular track and trace applications and such sophisticated services as proof of delivery, geofencing and monitoring the transport of dangerous goods,” says one GSA representative. “Many of these applications and services demand a high level of accuracy and integrity, and in Europe this is provided by EGNOS and Galileo.”
Based on conversations with various logistic stakeholders during the event, it is clear that service providers in this sector are most interested in solutions that offer additional cost savings. Here the GSA highlighted various GNSS-enabled solutions already on the market, including driver advisory systems that provide additional fuel savings and, in the near future, the autonomous vehicle. Of particular interest is the so-called ‘supply chain visibility’ concept, where GNSS, combined with telecommunication technology, is capable of providing an increased level of clarity to the chain of custody and the possibility to geofence transport corridors.
“The possibility of having such authenticated positioning information is very important to the logistics sector, thus the interest in the potential of Galileo to offer even more cost-efficient and reliable positioning continues to grow,” noted one attendee.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) recently took the EASTLOG stage to discuss the important role that EGNOS and Galileo play within the logistics sector.
Speaking at EASTLOG, Central and Eastern Europe’s largest supply chain and logistics tradeshow, the GSA highlighted the important role that EGNOS and Galileo play within the logistics sector.
According to the GSA, in a market that is as demanding and competitive as that of global logistics, space can provide cost-efficient solutions. “Global navigation satellite systems, or GNSS, are becoming increasingly relied upon by many different logistic-orientated applications, including the very popular track and trace applications and such sophisticated services as proof of delivery, geofencing and monitoring the transport of dangerous goods,” says one GSA representative. “Many of these applications and services demand a high level of accuracy and integrity, and in Europe this is provided by EGNOS and Galileo.”
Based on conversations with various logistic stakeholders during the event, it is clear that service providers in this sector are most interested in solutions that offer additional cost savings. Here the GSA highlighted various GNSS-enabled solutions already on the market, including driver advisory systems that provide additional fuel savings and, in the near future, the autonomous vehicle. Of particular interest is the so-called ‘supply chain visibility’ concept, where GNSS, combined with telecommunication technology, is capable of providing an increased level of clarity to the chain of custody and the possibility to geofence transport corridors.
“The possibility of having such authenticated positioning information is very important to the logistics sector, thus the interest in the potential of Galileo to offer even more cost-efficient and reliable positioning continues to grow,” noted one attendee.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) recently took the EASTLOG stage to discuss the important role that EGNOS and Galileo play within the logistics sector.
Speaking at EASTLOG, Central and Eastern Europe’s largest supply chain and logistics tradeshow, the GSA highlighted the important role that EGNOS and Galileo play within the logistics sector.
According to the GSA, in a market that is as demanding and competitive as that of global logistics, space can provide cost-efficient solutions. “Global navigation satellite systems, or GNSS, are becoming increasingly relied upon by many different logistic-orientated applications, including the very popular track and trace applications and such sophisticated services as proof of delivery, geofencing and monitoring the transport of dangerous goods,” says one GSA representative. “Many of these applications and services demand a high level of accuracy and integrity, and in Europe this is provided by EGNOS and Galileo.”
Based on conversations with various logistic stakeholders during the event, it is clear that service providers in this sector are most interested in solutions that offer additional cost savings. Here the GSA highlighted various GNSS-enabled solutions already on the market, including driver advisory systems that provide additional fuel savings and, in the near future, the autonomous vehicle. Of particular interest is the so-called ‘supply chain visibility’ concept, where GNSS, combined with telecommunication technology, is capable of providing an increased level of clarity to the chain of custody and the possibility to geofence transport corridors.
“The possibility of having such authenticated positioning information is very important to the logistics sector, thus the interest in the potential of Galileo to offer even more cost-efficient and reliable positioning continues to grow,” noted one attendee.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
One major takeaway from last week’s European Space Solutions conference in The Hague is that satellite navigation and Earth observation data are creating big opportunities for game-changing growth in Europe and beyond.
Opening a dedicated session on the topic of space solutions for business, European GNSS Agency (GSA) Executive Director Carlo des Dorides described how space is bringing effective tools to face the many challenges that business and society are confronting. Under the equation ‘(Space + Innovation) x Entrepreneurship = Growth!’ he noted that “entrepreneurs must not only have a vision, but the capacity to realise their vision, and be keen to take on risks and able to learn from ‘unsuccess’”.
As a case in point on how European space solutions can benefit businesses, he highlighted the role of the European Geostationary Navigation Overlay Service (EGNOS) in opening up business opportunities in the aviation sector and beyond. From six airports with operational EGNOS approaches in 2011, there are now over 350 operational EGNOS based procedures in Europe – a number set to double by 2018.
“This innovation ensures that smaller regional airports remain accessible in all weather conditions, increases operational efficiency and boosts tourism and trade,” he says. “This is resulting in major benefits for many airport operators and their regional communities.”
According to des Dorides, EGNOS is the perfect showcase of European innovation, saying that “EGNOS-based operations represent the most significant innovation in European air traffic since the invention of radar.”
Already an estimated 6 % of the global gross domestic product (GDP) depends on space technology. “If Europe gets our space strategy right, we will provide the right opportunities for using this space data for jobs and growth well into the future,” adds European Commission Head of Unit for Galileo and EGNOS Applications Philippe Jean.
Looking at what businesses want to do with space solutions, perhaps Shell Vice-President of Exploration Technology and Chief Scientist Geophysics Dirk Smit summed it up best by saying: “We want to bring space to Earth.” Elaborating on this statement, he notes that in his sector space is already providing solutions to the global energy challenge, including the use of space-based monitoring techniques for geoscience that are helping Shell “turn data into decisions”.
This is especially true when applied to the Earth’s subsurface, which Smit describes as “the last frontier” for exploration. Routine visualisation of the Earth’s subsurface, including the ocean floor for which Shell is sponsoring an Ocean Discovery XPRIZE, is close and, according to Smit, space-borne technology is critical.
So how are business leaders addressing today’s challenges and preparing for tomorrow’s opportunities with space solutions? According to global navigation satellite system (GNSS) receiver manufacturer ST Microelectronics Director Carlo Bagnoli, all one has to do is look at the transport sector. “After ST pioneered a volume supply of multi-constellation GNSS standalone receivers in 2011, we are now delivering our Teseo third-generation global GNSS solution supporting all existing signals, including Galileo,” he says. “Furthermore, we are developing precise positioning solutions to support new applications in Highly Automated ADAS [Advanced Driver Assist Systems] that match the performance, reliability and cost targets of these new exciting applications.”
In terms of smart cities and autonomous driving, Bagnoli feels that no single technology will drive this business alone. However, he believes that GNSS must be an important part of the technological mix. “This market will be global, dynamic and highly competitive, but will also rely on regulation and standardisation to ensure growth,” he says.
Adding to this role of GNSS in the transport sector, Xerox Tolling Business Senior Manager Peter Depuydt talked about space-based solutions in applications such as public transport, fleet management and route optimisation. According to him, GNSS-based systems have major applications in border control solutions. He also believes that legislation for data safeguards will become increasingly important. “Vehicle tolling systems will generate a huge amount of data that enables efficient traffic management. However the actual tracking guarantees privacy,” he says.
Entrepreneur and self-proclaimed space invader Robert Mica discussed the current investment climate, noting that interest in investing in space-based businesses was changing – and fast. “Venture capital invested more in space start-ups last year than in the previous 15 years,” he says. “Clearly, there is a big shift happening.”
That being said, he also advised that, when talking to venture capitalists, it is important to get down to the business case: “They are not interested in space per se. What they really want to know is where the money is,” he says. He also noted a difference between the USA and the EU, saying that in the EU business was more driven by a technology push, while in the USA businesses operated in a more market-push environment.
To put all this into perspective, Planet Labs CEO used his company’s ambitious Earth observation and remote sensing business plans as a case study of space-based success. According to him, a global sensor revolution is currently underway, and the Planet Lab approach is looking to enable monitoring on a daily basis with global coverage and rapid online delivery at lower cost.
To achieve this, a fleet of over 100 small mass-manufactured satellites will be needed – a process that will “institutionalises innovation”. “This constellation will allow monitoring of ‘everywhere, everyday’ at a three-metre pixel resolution,” he says. “This almost real-time information will let us take the pulse of the planet and, when combined with excellent analytics, will help decision-makers and support efforts for global sustainability.”
Want to learn more about the many ways Space Solutions can benefit your business? In the coming weeks we will be running focused articles and business profiles on how such sectors as energy, smart mobility, climate change and the environment, agriculture and food, river deltas and health and safety are all making the business case for space.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
One major takeaway from last week’s European Space Solutions conference in The Hague is that satellite navigation and Earth observation data are creating big opportunities for game-changing growth in Europe and beyond.
Opening a dedicated session on the topic of space solutions for business, European GNSS Agency (GSA) Executive Director Carlo des Dorides described how space is bringing effective tools to face the many challenges that business and society are confronting. Under the equation ‘(Space + Innovation) x Entrepreneurship = Growth!’ he noted that “entrepreneurs must not only have a vision, but the capacity to realise their vision, and be keen to take on risks and able to learn from ‘unsuccess’”.
As a case in point on how European space solutions can benefit businesses, he highlighted the role of the European Geostationary Navigation Overlay Service (EGNOS) in opening up business opportunities in the aviation sector and beyond. From six airports with operational EGNOS approaches in 2011, there are now over 350 operational EGNOS based procedures in Europe – a number set to double by 2018.
“This innovation ensures that smaller regional airports remain accessible in all weather conditions, increases operational efficiency and boosts tourism and trade,” he says. “This is resulting in major benefits for many airport operators and their regional communities.”
According to des Dorides, EGNOS is the perfect showcase of European innovation, saying that “EGNOS-based operations represent the most significant innovation in European air traffic since the invention of radar.”
Already an estimated 6 % of the global gross domestic product (GDP) depends on space technology. “If Europe gets our space strategy right, we will provide the right opportunities for using this space data for jobs and growth well into the future,” adds European Commission Head of Unit for Galileo and EGNOS Applications Philippe Jean.
Looking at what businesses want to do with space solutions, perhaps Shell Vice-President of Exploration Technology and Chief Scientist Geophysics Dirk Smit summed it up best by saying: “We want to bring space to Earth.” Elaborating on this statement, he notes that in his sector space is already providing solutions to the global energy challenge, including the use of space-based monitoring techniques for geoscience that are helping Shell “turn data into decisions”.
This is especially true when applied to the Earth’s subsurface, which Smit describes as “the last frontier” for exploration. Routine visualisation of the Earth’s subsurface, including the ocean floor for which Shell is sponsoring an Ocean Discovery XPRIZE, is close and, according to Smit, space-borne technology is critical.
So how are business leaders addressing today’s challenges and preparing for tomorrow’s opportunities with space solutions? According to global navigation satellite system (GNSS) receiver manufacturer ST Microelectronics Director Carlo Bagnoli, all one has to do is look at the transport sector. “After ST pioneered a volume supply of multi-constellation GNSS standalone receivers in 2011, we are now delivering our Teseo third-generation global GNSS solution supporting all existing signals, including Galileo,” he says. “Furthermore, we are developing precise positioning solutions to support new applications in Highly Automated ADAS [Advanced Driver Assist Systems] that match the performance, reliability and cost targets of these new exciting applications.”
In terms of smart cities and autonomous driving, Bagnoli feels that no single technology will drive this business alone. However, he believes that GNSS must be an important part of the technological mix. “This market will be global, dynamic and highly competitive, but will also rely on regulation and standardisation to ensure growth,” he says.
Adding to this role of GNSS in the transport sector, Xerox Tolling Business Senior Manager Peter Depuydt talked about space-based solutions in applications such as public transport, fleet management and route optimisation. According to him, GNSS-based systems have major applications in border control solutions. He also believes that legislation for data safeguards will become increasingly important. “Vehicle tolling systems will generate a huge amount of data that enables efficient traffic management. However the actual tracking guarantees privacy,” he says.
Entrepreneur and self-proclaimed space invader Robert Mica discussed the current investment climate, noting that interest in investing in space-based businesses was changing – and fast. “Venture capital invested more in space start-ups last year than in the previous 15 years,” he says. “Clearly, there is a big shift happening.”
That being said, he also advised that, when talking to venture capitalists, it is important to get down to the business case: “They are not interested in space per se. What they really want to know is where the money is,” he says. He also noted a difference between the USA and the EU, saying that in the EU business was more driven by a technology push, while in the USA businesses operated in a more market-push environment.
To put all this into perspective, Planet Labs CEO used his company’s ambitious Earth observation and remote sensing business plans as a case study of space-based success. According to him, a global sensor revolution is currently underway, and the Planet Lab approach is looking to enable monitoring on a daily basis with global coverage and rapid online delivery at lower cost.
To achieve this, a fleet of over 100 small mass-manufactured satellites will be needed – a process that will “institutionalises innovation”. “This constellation will allow monitoring of ‘everywhere, everyday’ at a three-metre pixel resolution,” he says. “This almost real-time information will let us take the pulse of the planet and, when combined with excellent analytics, will help decision-makers and support efforts for global sustainability.”
Want to learn more about the many ways Space Solutions can benefit your business? In the coming weeks we will be running focused articles and business profiles on how such sectors as energy, smart mobility, climate change and the environment, agriculture and food, river deltas and health and safety are all making the business case for space.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
One major takeaway from last week’s European Space Solutions conference in The Hague is that satellite navigation and Earth observation data are creating big opportunities for game-changing growth in Europe and beyond.
Opening a dedicated session on the topic of space solutions for business, European GNSS Agency (GSA) Executive Director Carlo des Dorides described how space is bringing effective tools to face the many challenges that business and society are confronting. Under the equation ‘(Space + Innovation) x Entrepreneurship = Growth!’ he noted that “entrepreneurs must not only have a vision, but the capacity to realise their vision, and be keen to take on risks and able to learn from ‘unsuccess’”.
As a case in point on how European space solutions can benefit businesses, he highlighted the role of the European Geostationary Navigation Overlay Service (EGNOS) in opening up business opportunities in the aviation sector and beyond. From six airports with operational EGNOS approaches in 2011, there are now over 350 operational EGNOS based procedures in Europe – a number set to double by 2018.
“This innovation ensures that smaller regional airports remain accessible in all weather conditions, increases operational efficiency and boosts tourism and trade,” he says. “This is resulting in major benefits for many airport operators and their regional communities.”
According to des Dorides, EGNOS is the perfect showcase of European innovation, saying that “EGNOS-based operations represent the most significant innovation in European air traffic since the invention of radar.”
Already an estimated 6 % of the global gross domestic product (GDP) depends on space technology. “If Europe gets our space strategy right, we will provide the right opportunities for using this space data for jobs and growth well into the future,” adds European Commission Head of Unit for Galileo and EGNOS Applications Philippe Jean.
Looking at what businesses want to do with space solutions, perhaps Shell Vice-President of Exploration Technology and Chief Scientist Geophysics Dirk Smit summed it up best by saying: “We want to bring space to Earth.” Elaborating on this statement, he notes that in his sector space is already providing solutions to the global energy challenge, including the use of space-based monitoring techniques for geoscience that are helping Shell “turn data into decisions”.
This is especially true when applied to the Earth’s subsurface, which Smit describes as “the last frontier” for exploration. Routine visualisation of the Earth’s subsurface, including the ocean floor for which Shell is sponsoring an Ocean Discovery XPRIZE, is close and, according to Smit, space-borne technology is critical.
So how are business leaders addressing today’s challenges and preparing for tomorrow’s opportunities with space solutions? According to global navigation satellite system (GNSS) receiver manufacturer ST Microelectronics Director Carlo Bagnoli, all one has to do is look at the transport sector. “After ST pioneered a volume supply of multi-constellation GNSS standalone receivers in 2011, we are now delivering our Teseo third-generation global GNSS solution supporting all existing signals, including Galileo,” he says. “Furthermore, we are developing precise positioning solutions to support new applications in Highly Automated ADAS [Advanced Driver Assist Systems] that match the performance, reliability and cost targets of these new exciting applications.”
In terms of smart cities and autonomous driving, Bagnoli feels that no single technology will drive this business alone. However, he believes that GNSS must be an important part of the technological mix. “This market will be global, dynamic and highly competitive, but will also rely on regulation and standardisation to ensure growth,” he says.
Adding to this role of GNSS in the transport sector, Xerox Tolling Business Senior Manager Peter Depuydt talked about space-based solutions in applications such as public transport, fleet management and route optimisation. According to him, GNSS-based systems have major applications in border control solutions. He also believes that legislation for data safeguards will become increasingly important. “Vehicle tolling systems will generate a huge amount of data that enables efficient traffic management. However the actual tracking guarantees privacy,” he says.
Entrepreneur and self-proclaimed space invader Robert Mica discussed the current investment climate, noting that interest in investing in space-based businesses was changing – and fast. “Venture capital invested more in space start-ups last year than in the previous 15 years,” he says. “Clearly, there is a big shift happening.”
That being said, he also advised that, when talking to venture capitalists, it is important to get down to the business case: “They are not interested in space per se. What they really want to know is where the money is,” he says. He also noted a difference between the USA and the EU, saying that in the EU business was more driven by a technology push, while in the USA businesses operated in a more market-push environment.
To put all this into perspective, Planet Labs CEO used his company’s ambitious Earth observation and remote sensing business plans as a case study of space-based success. According to him, a global sensor revolution is currently underway, and the Planet Lab approach is looking to enable monitoring on a daily basis with global coverage and rapid online delivery at lower cost.
To achieve this, a fleet of over 100 small mass-manufactured satellites will be needed – a process that will “institutionalises innovation”. “This constellation will allow monitoring of ‘everywhere, everyday’ at a three-metre pixel resolution,” he says. “This almost real-time information will let us take the pulse of the planet and, when combined with excellent analytics, will help decision-makers and support efforts for global sustainability.”
Want to learn more about the many ways Space Solutions can benefit your business? In the coming weeks we will be running focused articles and business profiles on how such sectors as energy, smart mobility, climate change and the environment, agriculture and food, river deltas and health and safety are all making the business case for space.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
One major takeaway from last week’s European Space Solutions conference in The Hague is that satellite navigation and Earth observation data are creating big opportunities for game-changing growth in Europe and beyond.
Opening a dedicated session on the topic of space solutions for business, European GNSS Agency (GSA) Executive Director Carlo des Dorides described how space is bringing effective tools to face the many challenges that business and society are confronting. Under the equation ‘(Space + Innovation) x Entrepreneurship = Growth!’ he noted that “entrepreneurs must not only have a vision, but the capacity to realise their vision, and be keen to take on risks and able to learn from ‘unsuccess’”.
As a case in point on how European space solutions can benefit businesses, he highlighted the role of the European Geostationary Navigation Overlay Service (EGNOS) in opening up business opportunities in the aviation sector and beyond. From six airports with operational EGNOS approaches in 2011, there are now over 350 operational EGNOS based procedures in Europe – a number set to double by 2018.
“This innovation ensures that smaller regional airports remain accessible in all weather conditions, increases operational efficiency and boosts tourism and trade,” he says. “This is resulting in major benefits for many airport operators and their regional communities.”
According to des Dorides, EGNOS is the perfect showcase of European innovation, saying that “EGNOS-based operations represent the most significant innovation in European air traffic since the invention of radar.”
Already an estimated 6 % of the global gross domestic product (GDP) depends on space technology. “If Europe gets our space strategy right, we will provide the right opportunities for using this space data for jobs and growth well into the future,” adds European Commission Head of Unit for Galileo and EGNOS Applications Philippe Jean.
Looking at what businesses want to do with space solutions, perhaps Shell Vice-President of Exploration Technology and Chief Scientist Geophysics Dirk Smit summed it up best by saying: “We want to bring space to Earth.” Elaborating on this statement, he notes that in his sector space is already providing solutions to the global energy challenge, including the use of space-based monitoring techniques for geoscience that are helping Shell “turn data into decisions”.
This is especially true when applied to the Earth’s subsurface, which Smit describes as “the last frontier” for exploration. Routine visualisation of the Earth’s subsurface, including the ocean floor for which Shell is sponsoring an Ocean Discovery XPRIZE, is close and, according to Smit, space-borne technology is critical.
So how are business leaders addressing today’s challenges and preparing for tomorrow’s opportunities with space solutions? According to global navigation satellite system (GNSS) receiver manufacturer ST Microelectronics Director Carlo Bagnoli, all one has to do is look at the transport sector. “After ST pioneered a volume supply of multi-constellation GNSS standalone receivers in 2011, we are now delivering our Teseo third-generation global GNSS solution supporting all existing signals, including Galileo,” he says. “Furthermore, we are developing precise positioning solutions to support new applications in Highly Automated ADAS [Advanced Driver Assist Systems] that match the performance, reliability and cost targets of these new exciting applications.”
In terms of smart cities and autonomous driving, Bagnoli feels that no single technology will drive this business alone. However, he believes that GNSS must be an important part of the technological mix. “This market will be global, dynamic and highly competitive, but will also rely on regulation and standardisation to ensure growth,” he says.
Adding to this role of GNSS in the transport sector, Xerox Tolling Business Senior Manager Peter Depuydt talked about space-based solutions in applications such as public transport, fleet management and route optimisation. According to him, GNSS-based systems have major applications in border control solutions. He also believes that legislation for data safeguards will become increasingly important. “Vehicle tolling systems will generate a huge amount of data that enables efficient traffic management. However the actual tracking guarantees privacy,” he says.
Entrepreneur and self-proclaimed space invader Robert Mica discussed the current investment climate, noting that interest in investing in space-based businesses was changing – and fast. “Venture capital invested more in space start-ups last year than in the previous 15 years,” he says. “Clearly, there is a big shift happening.”
That being said, he also advised that, when talking to venture capitalists, it is important to get down to the business case: “They are not interested in space per se. What they really want to know is where the money is,” he says. He also noted a difference between the USA and the EU, saying that in the EU business was more driven by a technology push, while in the USA businesses operated in a more market-push environment.
To put all this into perspective, Planet Labs CEO used his company’s ambitious Earth observation and remote sensing business plans as a case study of space-based success. According to him, a global sensor revolution is currently underway, and the Planet Lab approach is looking to enable monitoring on a daily basis with global coverage and rapid online delivery at lower cost.
To achieve this, a fleet of over 100 small mass-manufactured satellites will be needed – a process that will “institutionalises innovation”. “This constellation will allow monitoring of ‘everywhere, everyday’ at a three-metre pixel resolution,” he says. “This almost real-time information will let us take the pulse of the planet and, when combined with excellent analytics, will help decision-makers and support efforts for global sustainability.”
Want to learn more about the many ways Space Solutions can benefit your business? In the coming weeks we will be running focused articles and business profiles on how such sectors as energy, smart mobility, climate change and the environment, agriculture and food, river deltas and health and safety are all making the business case for space.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
One major takeaway from last week’s European Space Solutions conference in The Hague is that satellite navigation and Earth observation data are creating big opportunities for game-changing growth in Europe and beyond.
Opening a dedicated session on the topic of space solutions for business, European GNSS Agency (GSA) Executive Director Carlo des Dorides described how space is bringing effective tools to face the many challenges that business and society are confronting. Under the equation ‘(Space + Innovation) x Entrepreneurship = Growth!’ he noted that “entrepreneurs must not only have a vision, but the capacity to realise their vision, and be keen to take on risks and able to learn from ‘unsuccess’”.
As a case in point on how European space solutions can benefit businesses, he highlighted the role of the European Geostationary Navigation Overlay Service (EGNOS) in opening up business opportunities in the aviation sector and beyond. From six airports with operational EGNOS approaches in 2011, there are now over 350 operational EGNOS based procedures in Europe – a number set to double by 2018.
“This innovation ensures that smaller regional airports remain accessible in all weather conditions, increases operational efficiency and boosts tourism and trade,” he says. “This is resulting in major benefits for many airport operators and their regional communities.”
According to des Dorides, EGNOS is the perfect showcase of European innovation, saying that “EGNOS-based operations represent the most significant innovation in European air traffic since the invention of radar.”
Already an estimated 6 % of the global gross domestic product (GDP) depends on space technology. “If Europe gets our space strategy right, we will provide the right opportunities for using this space data for jobs and growth well into the future,” adds European Commission Head of Unit for Galileo and EGNOS Applications Philippe Jean.
Looking at what businesses want to do with space solutions, perhaps Shell Vice-President of Exploration Technology and Chief Scientist Geophysics Dirk Smit summed it up best by saying: “We want to bring space to Earth.” Elaborating on this statement, he notes that in his sector space is already providing solutions to the global energy challenge, including the use of space-based monitoring techniques for geoscience that are helping Shell “turn data into decisions”.
This is especially true when applied to the Earth’s subsurface, which Smit describes as “the last frontier” for exploration. Routine visualisation of the Earth’s subsurface, including the ocean floor for which Shell is sponsoring an Ocean Discovery XPRIZE, is close and, according to Smit, space-borne technology is critical.
So how are business leaders addressing today’s challenges and preparing for tomorrow’s opportunities with space solutions? According to global navigation satellite system (GNSS) receiver manufacturer ST Microelectronics Director Carlo Bagnoli, all one has to do is look at the transport sector. “After ST pioneered a volume supply of multi-constellation GNSS standalone receivers in 2011, we are now delivering our Teseo third-generation global GNSS solution supporting all existing signals, including Galileo,” he says. “Furthermore, we are developing precise positioning solutions to support new applications in Highly Automated ADAS [Advanced Driver Assist Systems] that match the performance, reliability and cost targets of these new exciting applications.”
In terms of smart cities and autonomous driving, Bagnoli feels that no single technology will drive this business alone. However, he believes that GNSS must be an important part of the technological mix. “This market will be global, dynamic and highly competitive, but will also rely on regulation and standardisation to ensure growth,” he says.
Adding to this role of GNSS in the transport sector, Xerox Tolling Business Senior Manager Peter Depuydt talked about space-based solutions in applications such as public transport, fleet management and route optimisation. According to him, GNSS-based systems have major applications in border control solutions. He also believes that legislation for data safeguards will become increasingly important. “Vehicle tolling systems will generate a huge amount of data that enables efficient traffic management. However the actual tracking guarantees privacy,” he says.
Entrepreneur and self-proclaimed space invader Robert Mica discussed the current investment climate, noting that interest in investing in space-based businesses was changing – and fast. “Venture capital invested more in space start-ups last year than in the previous 15 years,” he says. “Clearly, there is a big shift happening.”
That being said, he also advised that, when talking to venture capitalists, it is important to get down to the business case: “They are not interested in space per se. What they really want to know is where the money is,” he says. He also noted a difference between the USA and the EU, saying that in the EU business was more driven by a technology push, while in the USA businesses operated in a more market-push environment.
To put all this into perspective, Planet Labs CEO used his company’s ambitious Earth observation and remote sensing business plans as a case study of space-based success. According to him, a global sensor revolution is currently underway, and the Planet Lab approach is looking to enable monitoring on a daily basis with global coverage and rapid online delivery at lower cost.
To achieve this, a fleet of over 100 small mass-manufactured satellites will be needed – a process that will “institutionalises innovation”. “This constellation will allow monitoring of ‘everywhere, everyday’ at a three-metre pixel resolution,” he says. “This almost real-time information will let us take the pulse of the planet and, when combined with excellent analytics, will help decision-makers and support efforts for global sustainability.”
Want to learn more about the many ways Space Solutions can benefit your business? In the coming weeks we will be running focused articles and business profiles on how such sectors as energy, smart mobility, climate change and the environment, agriculture and food, river deltas and health and safety are all making the business case for space.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
One major takeaway from last week’s European Space Solutions conference in The Hague is that satellite navigation and Earth observation data are creating big opportunities for game-changing growth in Europe and beyond.
Opening a dedicated session on the topic of space solutions for business, European GNSS Agency (GSA) Executive Director Carlo des Dorides described how space is bringing effective tools to face the many challenges that business and society are confronting. Under the equation ‘(Space + Innovation) x Entrepreneurship = Growth!’ he noted that “entrepreneurs must not only have a vision, but the capacity to realise their vision, and be keen to take on risks and able to learn from ‘unsuccess’”.
As a case in point on how European space solutions can benefit businesses, he highlighted the role of the European Geostationary Navigation Overlay Service (EGNOS) in opening up business opportunities in the aviation sector and beyond. From six airports with operational EGNOS approaches in 2011, there are now over 350 operational EGNOS based procedures in Europe – a number set to double by 2018.
“This innovation ensures that smaller regional airports remain accessible in all weather conditions, increases operational efficiency and boosts tourism and trade,” he says. “This is resulting in major benefits for many airport operators and their regional communities.”
According to des Dorides, EGNOS is the perfect showcase of European innovation, saying that “EGNOS-based operations represent the most significant innovation in European air traffic since the invention of radar.”
Already an estimated 6 % of the global gross domestic product (GDP) depends on space technology. “If Europe gets our space strategy right, we will provide the right opportunities for using this space data for jobs and growth well into the future,” adds European Commission Head of Unit for Galileo and EGNOS Applications Philippe Jean.
Looking at what businesses want to do with space solutions, perhaps Shell Vice-President of Exploration Technology and Chief Scientist Geophysics Dirk Smit summed it up best by saying: “We want to bring space to Earth.” Elaborating on this statement, he notes that in his sector space is already providing solutions to the global energy challenge, including the use of space-based monitoring techniques for geoscience that are helping Shell “turn data into decisions”.
This is especially true when applied to the Earth’s subsurface, which Smit describes as “the last frontier” for exploration. Routine visualisation of the Earth’s subsurface, including the ocean floor for which Shell is sponsoring an Ocean Discovery XPRIZE, is close and, according to Smit, space-borne technology is critical.
So how are business leaders addressing today’s challenges and preparing for tomorrow’s opportunities with space solutions? According to global navigation satellite system (GNSS) receiver manufacturer ST Microelectronics Director Carlo Bagnoli, all one has to do is look at the transport sector. “After ST pioneered a volume supply of multi-constellation GNSS standalone receivers in 2011, we are now delivering our Teseo third-generation global GNSS solution supporting all existing signals, including Galileo,” he says. “Furthermore, we are developing precise positioning solutions to support new applications in Highly Automated ADAS [Advanced Driver Assist Systems] that match the performance, reliability and cost targets of these new exciting applications.”
In terms of smart cities and autonomous driving, Bagnoli feels that no single technology will drive this business alone. However, he believes that GNSS must be an important part of the technological mix. “This market will be global, dynamic and highly competitive, but will also rely on regulation and standardisation to ensure growth,” he says.
Adding to this role of GNSS in the transport sector, Xerox Tolling Business Senior Manager Peter Depuydt talked about space-based solutions in applications such as public transport, fleet management and route optimisation. According to him, GNSS-based systems have major applications in border control solutions. He also believes that legislation for data safeguards will become increasingly important. “Vehicle tolling systems will generate a huge amount of data that enables efficient traffic management. However the actual tracking guarantees privacy,” he says.
Entrepreneur and self-proclaimed space invader Robert Mica discussed the current investment climate, noting that interest in investing in space-based businesses was changing – and fast. “Venture capital invested more in space start-ups last year than in the previous 15 years,” he says. “Clearly, there is a big shift happening.”
That being said, he also advised that, when talking to venture capitalists, it is important to get down to the business case: “They are not interested in space per se. What they really want to know is where the money is,” he says. He also noted a difference between the USA and the EU, saying that in the EU business was more driven by a technology push, while in the USA businesses operated in a more market-push environment.
To put all this into perspective, Planet Labs CEO used his company’s ambitious Earth observation and remote sensing business plans as a case study of space-based success. According to him, a global sensor revolution is currently underway, and the Planet Lab approach is looking to enable monitoring on a daily basis with global coverage and rapid online delivery at lower cost.
To achieve this, a fleet of over 100 small mass-manufactured satellites will be needed – a process that will “institutionalises innovation”. “This constellation will allow monitoring of ‘everywhere, everyday’ at a three-metre pixel resolution,” he says. “This almost real-time information will let us take the pulse of the planet and, when combined with excellent analytics, will help decision-makers and support efforts for global sustainability.”
Want to learn more about the many ways Space Solutions can benefit your business? In the coming weeks we will be running focused articles and business profiles on how such sectors as energy, smart mobility, climate change and the environment, agriculture and food, river deltas and health and safety are all making the business case for space.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Speaking at this week’s Geospatial World Forum in Rotterdam, the European GNSS Agency (GSA) discussed the many benefits that EGNOS and Galileo offer the geospatial sector and, specifically, the surveying and mapping domains.
Speaking at the Geospatial World Forum, the premiere event for the geospatial sector, the GSA highlighted the multiple benefits that such European GNSS programmes as Galileo and EGNOS bring to European surveyors, as well as illustrating synergies with the EU Earth Observation programme Copernicus. Topics discussed included how to increase industry adoption of GNSS, how to better meet user needs, and the integration of E-GNSS into geospatial equipment and end products.
Although all of these topics are of interest to surveyors, the topic on the top of everyone’s mind was the status of Galileo – and the GSA came bringing good news.
As two additional Galileo satellites were launched just that morning, Galileo satellites 13 and 14 will be followed by the launch of four more satellites later this year, with the declaration of Galileo Initial Services expected in the autumn. “Currently 80% of all GNSS receivers for surveying and mapping are EGNOS enabled and 45% are already Galileo enabled. This confirmed that the sector is well-positioned to benefit from of the Galileo services” says the GSA.
Galileo’s improved signal robustness, varying levels of authentication and its Commercial Service’s high-accuracy receiver error below one decimetre are all features that will greatly benefit geospatial users. According to a recent GSA survey, 78% of respondents say they will be ready to use Galileo signals by 2017.
Read also: EGNOS – A cost effective solution for GIS
As a prelude to what is in store for surveyors, the Swedish Cartographic Society reported that the Swedish surveyors are already anticipating how Galileo will help them for surveying in cities and other difficult environments. Most of the reference stations of SWEPOS, the Swedish national reference network provider, are fully equipped with Galileo-capable receivers.
However, Galileo will not operate in a vacuum. Not only is it interoperable with other GNSS systems, it also offers numerous synergies with the EU’s Copernicus Earth Observation system – particularly for the geospatial sector. “There is a huge potential for synergies between geopositioning and surface imaging,” says Dufourmont, Project Manager Copernicus Land Monitoring Services of the European Environment Agency. “For example, the sector is currently using both systems to track animals and monitor migration paths before making development decisions.”
To ensure the surveying community takes full advantage of all that Galileo and EGNOS have to offer, the GSA and the Council of European Geodetic Surveyors (CLGE) continue to collaborate. For example, GSA awards the special Galileo prize in the framework of the annual CLGE Young Surveyor Prize. Last year’s winner, Laura van de Vyvere of M3 Systems in Belgium, made innovative use of Galileo's unique four frequency signals to improve positioning in harsh ionospheric conditions.
GSA aims at responding to end-users’ needs and it therefore established a unique interface Galileo systems and users: the GSC (European GNSS Service Centre). The GSC is the platform where users can get information about the Galileo system status and performances, system documents and it includes a helpdesk.
The GSA is further supporting the uptake of European GNSS in the surveying sector via various funding mechanisms. For example, the Horizon 2020 LARA project is bringing together GNSS, augmented reality and 3D GIS geo-databases to show utility workers operating in the field what lies below the service – allowing them to know where it is safe to dig. MapKITE, another Horizon 2020 project, is bringing together terrestrial and aerial mapping systems, such remote payloads as LIDAR and GNSS systems for simultaneous geodata acquisition.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Speaking at this week’s Geospatial World Forum in Rotterdam, the European GNSS Agency (GSA) discussed the many benefits that EGNOS and Galileo offer the geospatial sector and, specifically, the surveying and mapping domains.
Speaking at the Geospatial World Forum, the premiere event for the geospatial sector, the GSA highlighted the multiple benefits that such European GNSS programmes as Galileo and EGNOS bring to European surveyors, as well as illustrating synergies with the EU Earth Observation programme Copernicus. Topics discussed included how to increase industry adoption of GNSS, how to better meet user needs, and the integration of E-GNSS into geospatial equipment and end products.
Although all of these topics are of interest to surveyors, the topic on the top of everyone’s mind was the status of Galileo – and the GSA came bringing good news.
As two additional Galileo satellites were launched just that morning, Galileo satellites 13 and 14 will be followed by the launch of four more satellites later this year, with the declaration of Galileo Initial Services expected in the autumn. “Currently 80% of all GNSS receivers for surveying and mapping are EGNOS enabled and 45% are already Galileo enabled. This confirmed that the sector is well-positioned to benefit from of the Galileo services” says the GSA.
Galileo’s improved signal robustness, varying levels of authentication and its Commercial Service’s high-accuracy receiver error below one decimetre are all features that will greatly benefit geospatial users. According to a recent GSA survey, 78% of respondents say they will be ready to use Galileo signals by 2017.
Read also: EGNOS – A cost effective solution for GIS
As a prelude to what is in store for surveyors, the Swedish Cartographic Society reported that the Swedish surveyors are already anticipating how Galileo will help them for surveying in cities and other difficult environments. Most of the reference stations of SWEPOS, the Swedish national reference network provider, are fully equipped with Galileo-capable receivers.
However, Galileo will not operate in a vacuum. Not only is it interoperable with other GNSS systems, it also offers numerous synergies with the EU’s Copernicus Earth Observation system – particularly for the geospatial sector. “There is a huge potential for synergies between geopositioning and surface imaging,” says Dufourmont, Project Manager Copernicus Land Monitoring Services of the European Environment Agency. “For example, the sector is currently using both systems to track animals and monitor migration paths before making development decisions.”
To ensure the surveying community takes full advantage of all that Galileo and EGNOS have to offer, the GSA and the Council of European Geodetic Surveyors (CLGE) continue to collaborate. For example, GSA awards the special Galileo prize in the framework of the annual CLGE Young Surveyor Prize. Last year’s winner, Laura van de Vyvere of M3 Systems in Belgium, made innovative use of Galileo's unique four frequency signals to improve positioning in harsh ionospheric conditions.
GSA aims at responding to end-users’ needs and it therefore established a unique interface Galileo systems and users: the GSC (European GNSS Service Centre). The GSC is the platform where users can get information about the Galileo system status and performances, system documents and it includes a helpdesk.
The GSA is further supporting the uptake of European GNSS in the surveying sector via various funding mechanisms. For example, the Horizon 2020 LARA project is bringing together GNSS, augmented reality and 3D GIS geo-databases to show utility workers operating in the field what lies below the service – allowing them to know where it is safe to dig. MapKITE, another Horizon 2020 project, is bringing together terrestrial and aerial mapping systems, such remote payloads as LIDAR and GNSS systems for simultaneous geodata acquisition.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Speaking at this week’s Geospatial World Forum in Rotterdam, the European GNSS Agency (GSA) discussed the many benefits that EGNOS and Galileo offer the geospatial sector and, specifically, the surveying and mapping domains.
Speaking at the Geospatial World Forum, the premiere event for the geospatial sector, the GSA highlighted the multiple benefits that such European GNSS programmes as Galileo and EGNOS bring to European surveyors, as well as illustrating synergies with the EU Earth Observation programme Copernicus. Topics discussed included how to increase industry adoption of GNSS, how to better meet user needs, and the integration of E-GNSS into geospatial equipment and end products.
Although all of these topics are of interest to surveyors, the topic on the top of everyone’s mind was the status of Galileo – and the GSA came bringing good news.
As two additional Galileo satellites were launched just that morning, Galileo satellites 13 and 14 will be followed by the launch of four more satellites later this year, with the declaration of Galileo Initial Services expected in the autumn. “Currently 80% of all GNSS receivers for surveying and mapping are EGNOS enabled and 45% are already Galileo enabled. This confirmed that the sector is well-positioned to benefit from of the Galileo services” says the GSA.
Galileo’s improved signal robustness, varying levels of authentication and its Commercial Service’s high-accuracy receiver error below one decimetre are all features that will greatly benefit geospatial users. According to a recent GSA survey, 78% of respondents say they will be ready to use Galileo signals by 2017.
Read also: EGNOS – A cost effective solution for GIS
As a prelude to what is in store for surveyors, the Swedish Cartographic Society reported that the Swedish surveyors are already anticipating how Galileo will help them for surveying in cities and other difficult environments. Most of the reference stations of SWEPOS, the Swedish national reference network provider, are fully equipped with Galileo-capable receivers.
However, Galileo will not operate in a vacuum. Not only is it interoperable with other GNSS systems, it also offers numerous synergies with the EU’s Copernicus Earth Observation system – particularly for the geospatial sector. “There is a huge potential for synergies between geopositioning and surface imaging,” says Dufourmont, Project Manager Copernicus Land Monitoring Services of the European Environment Agency. “For example, the sector is currently using both systems to track animals and monitor migration paths before making development decisions.”
To ensure the surveying community takes full advantage of all that Galileo and EGNOS have to offer, the GSA and the Council of European Geodetic Surveyors (CLGE) continue to collaborate. For example, GSA awards the special Galileo prize in the framework of the annual CLGE Young Surveyor Prize. Last year’s winner, Laura van de Vyvere of M3 Systems in Belgium, made innovative use of Galileo's unique four frequency signals to improve positioning in harsh ionospheric conditions.
GSA aims at responding to end-users’ needs and it therefore established a unique interface Galileo systems and users: the GSC (European GNSS Service Centre). The GSC is the platform where users can get information about the Galileo system status and performances, system documents and it includes a helpdesk.
The GSA is further supporting the uptake of European GNSS in the surveying sector via various funding mechanisms. For example, the Horizon 2020 LARA project is bringing together GNSS, augmented reality and 3D GIS geo-databases to show utility workers operating in the field what lies below the service – allowing them to know where it is safe to dig. MapKITE, another Horizon 2020 project, is bringing together terrestrial and aerial mapping systems, such remote payloads as LIDAR and GNSS systems for simultaneous geodata acquisition.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Speaking at this week’s Geospatial World Forum in Rotterdam, the European GNSS Agency (GSA) discussed the many benefits that EGNOS and Galileo offer the geospatial sector and, specifically, the surveying and mapping domains.
Speaking at the Geospatial World Forum, the premiere event for the geospatial sector, the GSA highlighted the multiple benefits that such European GNSS programmes as Galileo and EGNOS bring to European surveyors, as well as illustrating synergies with the EU Earth Observation programme Copernicus. Topics discussed included how to increase industry adoption of GNSS, how to better meet user needs, and the integration of E-GNSS into geospatial equipment and end products.
Although all of these topics are of interest to surveyors, the topic on the top of everyone’s mind was the status of Galileo – and the GSA came bringing good news.
As two additional Galileo satellites were launched just that morning, Galileo satellites 13 and 14 will be followed by the launch of four more satellites later this year, with the declaration of Galileo Initial Services expected in the autumn. “Currently 80% of all GNSS receivers for surveying and mapping are EGNOS enabled and 45% are already Galileo enabled. This confirmed that the sector is well-positioned to benefit from of the Galileo services” says the GSA.
Galileo’s improved signal robustness, varying levels of authentication and its Commercial Service’s high-accuracy receiver error below one decimetre are all features that will greatly benefit geospatial users. According to a recent GSA survey, 78% of respondents say they will be ready to use Galileo signals by 2017.
Read also: EGNOS – A cost effective solution for GIS
As a prelude to what is in store for surveyors, the Swedish Cartographic Society reported that the Swedish surveyors are already anticipating how Galileo will help them for surveying in cities and other difficult environments. Most of the reference stations of SWEPOS, the Swedish national reference network provider, are fully equipped with Galileo-capable receivers.
However, Galileo will not operate in a vacuum. Not only is it interoperable with other GNSS systems, it also offers numerous synergies with the EU’s Copernicus Earth Observation system – particularly for the geospatial sector. “There is a huge potential for synergies between geopositioning and surface imaging,” says Dufourmont, Project Manager Copernicus Land Monitoring Services of the European Environment Agency. “For example, the sector is currently using both systems to track animals and monitor migration paths before making development decisions.”
To ensure the surveying community takes full advantage of all that Galileo and EGNOS have to offer, the GSA and the Council of European Geodetic Surveyors (CLGE) continue to collaborate. For example, GSA awards the special Galileo prize in the framework of the annual CLGE Young Surveyor Prize. Last year’s winner, Laura van de Vyvere of M3 Systems in Belgium, made innovative use of Galileo's unique four frequency signals to improve positioning in harsh ionospheric conditions.
GSA aims at responding to end-users’ needs and it therefore established a unique interface Galileo systems and users: the GSC (European GNSS Service Centre). The GSC is the platform where users can get information about the Galileo system status and performances, system documents and it includes a helpdesk.
The GSA is further supporting the uptake of European GNSS in the surveying sector via various funding mechanisms. For example, the Horizon 2020 LARA project is bringing together GNSS, augmented reality and 3D GIS geo-databases to show utility workers operating in the field what lies below the service – allowing them to know where it is safe to dig. MapKITE, another Horizon 2020 project, is bringing together terrestrial and aerial mapping systems, such remote payloads as LIDAR and GNSS systems for simultaneous geodata acquisition.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
Speaking at this week’s Geospatial World Forum in Rotterdam, the European GNSS Agency (GSA) discussed the many benefits that EGNOS and Galileo offer the geospatial sector and, specifically, the surveying and mapping domains.
Speaking at the Geospatial World Forum, the premiere event for the geospatial sector, the GSA highlighted the multiple benefits that such European GNSS programmes as Galileo and EGNOS bring to European surveyors, as well as illustrating synergies with the EU Earth Observation programme Copernicus. Topics discussed included how to increase industry adoption of GNSS, how to better meet user needs, and the integration of E-GNSS into geospatial equipment and end products.
Although all of these topics are of interest to surveyors, the topic on the top of everyone’s mind was the status of Galileo – and the GSA came bringing good news.
As two additional Galileo satellites were launched just that morning, Galileo satellites 13 and 14 will be followed by the launch of four more satellites later this year, with the declaration of Galileo Initial Services expected in the autumn. “Currently 80% of all GNSS receivers for surveying and mapping are EGNOS enabled and 45% are already Galileo enabled. This confirmed that the sector is well-positioned to benefit from of the Galileo services” says the GSA.
Galileo’s improved signal robustness, varying levels of authentication and its Commercial Service’s high-accuracy receiver error below one decimetre are all features that will greatly benefit geospatial users. According to a recent GSA survey, 78% of respondents say they will be ready to use Galileo signals by 2017.
Read also: EGNOS – A cost effective solution for GIS
As a prelude to what is in store for surveyors, the Swedish Cartographic Society reported that the Swedish surveyors are already anticipating how Galileo will help them for surveying in cities and other difficult environments. Most of the reference stations of SWEPOS, the Swedish national reference network provider, are fully equipped with Galileo-capable receivers.
However, Galileo will not operate in a vacuum. Not only is it interoperable with other GNSS systems, it also offers numerous synergies with the EU’s Copernicus Earth Observation system – particularly for the geospatial sector. “There is a huge potential for synergies between geopositioning and surface imaging,” says Dufourmont, Project Manager Copernicus Land Monitoring Services of the European Environment Agency. “For example, the sector is currently using both systems to track animals and monitor migration paths before making development decisions.”
To ensure the surveying community takes full advantage of all that Galileo and EGNOS have to offer, the GSA and the Council of European Geodetic Surveyors (CLGE) continue to collaborate. For example, GSA awards the special Galileo prize in the framework of the annual CLGE Young Surveyor Prize. Last year’s winner, Laura van de Vyvere of M3 Systems in Belgium, made innovative use of Galileo's unique four frequency signals to improve positioning in harsh ionospheric conditions.
GSA aims at responding to end-users’ needs and it therefore established a unique interface Galileo systems and users: the GSC (European GNSS Service Centre). The GSC is the platform where users can get information about the Galileo system status and performances, system documents and it includes a helpdesk.
The GSA is further supporting the uptake of European GNSS in the surveying sector via various funding mechanisms. For example, the Horizon 2020 LARA project is bringing together GNSS, augmented reality and 3D GIS geo-databases to show utility workers operating in the field what lies below the service – allowing them to know where it is safe to dig. MapKITE, another Horizon 2020 project, is bringing together terrestrial and aerial mapping systems, such remote payloads as LIDAR and GNSS systems for simultaneous geodata acquisition.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
French start-up UBISCALE was named the winner of the first GSA “IoT Solutions empowered by GNSS” award at the 2016 GEO IoT conference.
The Internet of Things (IoT) is everywhere, connecting smartphones, tablets and industrial and home appliances, and making roads, cities, factories and appliances smarter. In every sector of the economy, IoT is enabling objects to exchange data with manufacturers, operators and other devices to create a vast integrated network of connected things and services that is expected to surpass a volume of 50 billion by 2020.
Global Navigation Satellite Systems (GNSS) such as Galileo and EGNOS play a key role in IoT, providing the positioning, velocity and timing information required by an increasing number of context-aware applications.
To raise awareness of the integral role that GNSS plays in IoT, the European GNSS Agency (GSA) sponsored the IoT Solutions empowered by GNSS award within the GEO IoT World conference on 25-26 May in Brussels.
“Galileo brings IoT better accuracy and availability due to its signal strength in such difficult environments as in the city, as well as an authenticated open signal,” says GSA Executive Director Carlo des Dorides. “With this award, the GSA was looking for the most innovative IoT applications that rely on GNSS and leverage the enhanced possibilities offered by Galileo – and we found such an application in UBISCALE, this year’s winning company.”
At the centre of this winning concept is the UbiGNSS™ technology and service that enables true low‐power GNSS‐based IoT services. The UbiGNSS™ solution’s essential insight is that for tracking applications, the device itself does not need to know its position, although the service side tracking applications does.
“From this assessment, we achieved power‐optimised GNSS pre‐processing for end‐devices and shifted the actual calculation of the position to a cloud‐based server, while sustaining the low data rate of Low‐Power Wide‐Area Networking (LPWAN),” says UBISCALE General Manager Samuel Ryckewaert who, along with CTO Mikaël Guenais, received the award during a special ceremony in Brussels. “In comparison to architecture based on GNSS computing the position at the device, the combination of GNSS and LPWAN used in UbiGNSS™ can cut power consumption by ten times, which enables unprecedented battery‐operated and truly cost‐effective tracking applications.”
UbiGNSS™ technology has been engineered to be compatible with all major GNSS systems, but the company anticipates that Galileo, thanks to its modulations and signal strength, will provide additional benefits, especially in terms of urban and other challenging environments.
The company is also anticipating a swift entry into the market. “With the advent of LPWAN networks, we believe our entry is arriving at the right time on the market,” says Guenais. “LPWAN networks are expected to represent 25% of total IoT connectivity by 2020 and will unleash a large volume of opportunities in lower-end devices.”
As well as working with new tracking devices, the UbiGNSS™ solution can also be applied to existing trackers as a firmware upgrade.
In reaching their verdict, the jury, which included GSA Market Development Officer for IoT and LBS Justyna Redelkiewicz and other industry experts, praised the UBISCALE solution, saying: “Power consumption is one of the main barriers for GNSS adoption in IoT. As this project tackles this problem, we think it will have a huge impact on the market.”
In recognition of their achievement, the company received a GSA ‘prism’ trophy and certificate. In addition, UBISCALE will be funded for a business incubation period tailored around their needs, which could include market analysis, business strategy and business plan development, resource mobilisation strategy and international positioning. Furthermore, the company will have access to networking opportunities with industry and investors, investor relations and investor scouting, a dedicated team of GSA-accredited consultants and coaches, along with an extensive network of industry and institutions – all specialised in the GEO IoT market.
In addition to the main prize, the GSA also announced a special prize awarded to the EAGLE (Enhanced Authentication with GaLileo dEvice) device, entered by Italian venture SpaceEXE. This concept integrates a high‐precision GNSS receiver with the capability of authenticating position through the GNSS satellite signal recording, the I.D. satellite tracked, and their position in orbit.
The application will enable local authorities to create ‘Fluid Limited Traffic Zones’ to dynamically regulate access to city centres, thus setting a new standard for city mobility. The technological novelty of the product is the civil use of authentication of the Galileo GNSS signal, paired with a massive cloud based system capable of monitoring multiple vehicles in real time. “The idea of this project is very interesting since it provides flexibility for city traffic management while leveraging Galileo Open Service authentication,” says Redelkiewicz.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
French start-up UBISCALE was named the winner of the first GSA “IoT Solutions empowered by GNSS” award at the 2016 GEO IoT conference.
The Internet of Things (IoT) is everywhere, connecting smartphones, tablets and industrial and home appliances, and making roads, cities, factories and appliances smarter. In every sector of the economy, IoT is enabling objects to exchange data with manufacturers, operators and other devices to create a vast integrated network of connected things and services that is expected to surpass a volume of 50 billion by 2020.
Global Navigation Satellite Systems (GNSS) such as Galileo and EGNOS play a key role in IoT, providing the positioning, velocity and timing information required by an increasing number of context-aware applications.
To raise awareness of the integral role that GNSS plays in IoT, the European GNSS Agency (GSA) sponsored the IoT Solutions empowered by GNSS award within the GEO IoT World conference on 25-26 May in Brussels.
“Galileo brings IoT better accuracy and availability due to its signal strength in such difficult environments as in the city, as well as an authenticated open signal,” says GSA Executive Director Carlo des Dorides. “With this award, the GSA was looking for the most innovative IoT applications that rely on GNSS and leverage the enhanced possibilities offered by Galileo – and we found such an application in UBISCALE, this year’s winning company.”
At the centre of this winning concept is the UbiGNSS™ technology and service that enables true low‐power GNSS‐based IoT services. The UbiGNSS™ solution’s essential insight is that for tracking applications, the device itself does not need to know its position, although the service side tracking applications does.
“From this assessment, we achieved power‐optimised GNSS pre‐processing for end‐devices and shifted the actual calculation of the position to a cloud‐based server, while sustaining the low data rate of Low‐Power Wide‐Area Networking (LPWAN),” says UBISCALE General Manager Samuel Ryckewaert who, along with CTO Mikaël Guenais, received the award during a special ceremony in Brussels. “In comparison to architecture based on GNSS computing the position at the device, the combination of GNSS and LPWAN used in UbiGNSS™ can cut power consumption by ten times, which enables unprecedented battery‐operated and truly cost‐effective tracking applications.”
UbiGNSS™ technology has been engineered to be compatible with all major GNSS systems, but the company anticipates that Galileo, thanks to its modulations and signal strength, will provide additional benefits, especially in terms of urban and other challenging environments.
The company is also anticipating a swift entry into the market. “With the advent of LPWAN networks, we believe our entry is arriving at the right time on the market,” says Guenais. “LPWAN networks are expected to represent 25% of total IoT connectivity by 2020 and will unleash a large volume of opportunities in lower-end devices.”
As well as working with new tracking devices, the UbiGNSS™ solution can also be applied to existing trackers as a firmware upgrade.
In reaching their verdict, the jury, which included GSA Market Development Officer for IoT and LBS Justyna Redelkiewicz and other industry experts, praised the UBISCALE solution, saying: “Power consumption is one of the main barriers for GNSS adoption in IoT. As this project tackles this problem, we think it will have a huge impact on the market.”
In recognition of their achievement, the company received a GSA ‘prism’ trophy and certificate. In addition, UBISCALE will be funded for a business incubation period tailored around their needs, which could include market analysis, business strategy and business plan development, resource mobilisation strategy and international positioning. Furthermore, the company will have access to networking opportunities with industry and investors, investor relations and investor scouting, a dedicated team of GSA-accredited consultants and coaches, along with an extensive network of industry and institutions – all specialised in the GEO IoT market.
In addition to the main prize, the GSA also announced a special prize awarded to the EAGLE (Enhanced Authentication with GaLileo dEvice) device, entered by Italian venture SpaceEXE. This concept integrates a high‐precision GNSS receiver with the capability of authenticating position through the GNSS satellite signal recording, the I.D. satellite tracked, and their position in orbit.
The application will enable local authorities to create ‘Fluid Limited Traffic Zones’ to dynamically regulate access to city centres, thus setting a new standard for city mobility. The technological novelty of the product is the civil use of authentication of the Galileo GNSS signal, paired with a massive cloud based system capable of monitoring multiple vehicles in real time. “The idea of this project is very interesting since it provides flexibility for city traffic management while leveraging Galileo Open Service authentication,” says Redelkiewicz.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
French start-up UBISCALE was named the winner of the first GSA “IoT Solutions empowered by GNSS” award at the 2016 GEO IoT conference.
The Internet of Things (IoT) is everywhere, connecting smartphones, tablets and industrial and home appliances, and making roads, cities, factories and appliances smarter. In every sector of the economy, IoT is enabling objects to exchange data with manufacturers, operators and other devices to create a vast integrated network of connected things and services that is expected to surpass a volume of 50 billion by 2020.
Global Navigation Satellite Systems (GNSS) such as Galileo and EGNOS play a key role in IoT, providing the positioning, velocity and timing information required by an increasing number of context-aware applications.
To raise awareness of the integral role that GNSS plays in IoT, the European GNSS Agency (GSA) sponsored the IoT Solutions empowered by GNSS award within the GEO IoT World conference on 25-26 May in Brussels.
“Galileo brings IoT better accuracy and availability due to its signal strength in such difficult environments as in the city, as well as an authenticated open signal,” says GSA Executive Director Carlo des Dorides. “With this award, the GSA was looking for the most innovative IoT applications that rely on GNSS and leverage the enhanced possibilities offered by Galileo – and we found such an application in UBISCALE, this year’s winning company.”
At the centre of this winning concept is the UbiGNSS™ technology and service that enables true low‐power GNSS‐based IoT services. The UbiGNSS™ solution’s essential insight is that for tracking applications, the device itself does not need to know its position, although the service side tracking applications does.
“From this assessment, we achieved power‐optimised GNSS pre‐processing for end‐devices and shifted the actual calculation of the position to a cloud‐based server, while sustaining the low data rate of Low‐Power Wide‐Area Networking (LPWAN),” says UBISCALE General Manager Samuel Ryckewaert who, along with CTO Mikaël Guenais, received the award during a special ceremony in Brussels. “In comparison to architecture based on GNSS computing the position at the device, the combination of GNSS and LPWAN used in UbiGNSS™ can cut power consumption by ten times, which enables unprecedented battery‐operated and truly cost‐effective tracking applications.”
UbiGNSS™ technology has been engineered to be compatible with all major GNSS systems, but the company anticipates that Galileo, thanks to its modulations and signal strength, will provide additional benefits, especially in terms of urban and other challenging environments.
The company is also anticipating a swift entry into the market. “With the advent of LPWAN networks, we believe our entry is arriving at the right time on the market,” says Guenais. “LPWAN networks are expected to represent 25% of total IoT connectivity by 2020 and will unleash a large volume of opportunities in lower-end devices.”
As well as working with new tracking devices, the UbiGNSS™ solution can also be applied to existing trackers as a firmware upgrade.
In reaching their verdict, the jury, which included GSA Market Development Officer for IoT and LBS Justyna Redelkiewicz and other industry experts, praised the UBISCALE solution, saying: “Power consumption is one of the main barriers for GNSS adoption in IoT. As this project tackles this problem, we think it will have a huge impact on the market.”
In recognition of their achievement, the company received a GSA ‘prism’ trophy and certificate. In addition, UBISCALE will be funded for a business incubation period tailored around their needs, which could include market analysis, business strategy and business plan development, resource mobilisation strategy and international positioning. Furthermore, the company will have access to networking opportunities with industry and investors, investor relations and investor scouting, a dedicated team of GSA-accredited consultants and coaches, along with an extensive network of industry and institutions – all specialised in the GEO IoT market.
In addition to the main prize, the GSA also announced a special prize awarded to the EAGLE (Enhanced Authentication with GaLileo dEvice) device, entered by Italian venture SpaceEXE. This concept integrates a high‐precision GNSS receiver with the capability of authenticating position through the GNSS satellite signal recording, the I.D. satellite tracked, and their position in orbit.
The application will enable local authorities to create ‘Fluid Limited Traffic Zones’ to dynamically regulate access to city centres, thus setting a new standard for city mobility. The technological novelty of the product is the civil use of authentication of the Galileo GNSS signal, paired with a massive cloud based system capable of monitoring multiple vehicles in real time. “The idea of this project is very interesting since it provides flexibility for city traffic management while leveraging Galileo Open Service authentication,” says Redelkiewicz.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
French start-up UBISCALE was named the winner of the first GSA “IoT Solutions empowered by GNSS” award at the 2016 GEO IoT conference.
The Internet of Things (IoT) is everywhere, connecting smartphones, tablets and industrial and home appliances, and making roads, cities, factories and appliances smarter. In every sector of the economy, IoT is enabling objects to exchange data with manufacturers, operators and other devices to create a vast integrated network of connected things and services that is expected to surpass a volume of 50 billion by 2020.
Global Navigation Satellite Systems (GNSS) such as Galileo and EGNOS play a key role in IoT, providing the positioning, velocity and timing information required by an increasing number of context-aware applications.
To raise awareness of the integral role that GNSS plays in IoT, the European GNSS Agency (GSA) sponsored the IoT Solutions empowered by GNSS award within the GEO IoT World conference on 25-26 May in Brussels.
“Galileo brings IoT better accuracy and availability due to its signal strength in such difficult environments as in the city, as well as an authenticated open signal,” says GSA Executive Director Carlo des Dorides. “With this award, the GSA was looking for the most innovative IoT applications that rely on GNSS and leverage the enhanced possibilities offered by Galileo – and we found such an application in UBISCALE, this year’s winning company.”
At the centre of this winning concept is the UbiGNSS™ technology and service that enables true low‐power GNSS‐based IoT services. The UbiGNSS™ solution’s essential insight is that for tracking applications, the device itself does not need to know its position, although the service side tracking applications does.
“From this assessment, we achieved power‐optimised GNSS pre‐processing for end‐devices and shifted the actual calculation of the position to a cloud‐based server, while sustaining the low data rate of Low‐Power Wide‐Area Networking (LPWAN),” says UBISCALE General Manager Samuel Ryckewaert who, along with CTO Mikaël Guenais, received the award during a special ceremony in Brussels. “In comparison to architecture based on GNSS computing the position at the device, the combination of GNSS and LPWAN used in UbiGNSS™ can cut power consumption by ten times, which enables unprecedented battery‐operated and truly cost‐effective tracking applications.”
UbiGNSS™ technology has been engineered to be compatible with all major GNSS systems, but the company anticipates that Galileo, thanks to its modulations and signal strength, will provide additional benefits, especially in terms of urban and other challenging environments.
The company is also anticipating a swift entry into the market. “With the advent of LPWAN networks, we believe our entry is arriving at the right time on the market,” says Guenais. “LPWAN networks are expected to represent 25% of total IoT connectivity by 2020 and will unleash a large volume of opportunities in lower-end devices.”
As well as working with new tracking devices, the UbiGNSS™ solution can also be applied to existing trackers as a firmware upgrade.
In reaching their verdict, the jury, which included GSA Market Development Officer for IoT and LBS Justyna Redelkiewicz and other industry experts, praised the UBISCALE solution, saying: “Power consumption is one of the main barriers for GNSS adoption in IoT. As this project tackles this problem, we think it will have a huge impact on the market.”
In recognition of their achievement, the company received a GSA ‘prism’ trophy and certificate. In addition, UBISCALE will be funded for a business incubation period tailored around their needs, which could include market analysis, business strategy and business plan development, resource mobilisation strategy and international positioning. Furthermore, the company will have access to networking opportunities with industry and investors, investor relations and investor scouting, a dedicated team of GSA-accredited consultants and coaches, along with an extensive network of industry and institutions – all specialised in the GEO IoT market.
In addition to the main prize, the GSA also announced a special prize awarded to the EAGLE (Enhanced Authentication with GaLileo dEvice) device, entered by Italian venture SpaceEXE. This concept integrates a high‐precision GNSS receiver with the capability of authenticating position through the GNSS satellite signal recording, the I.D. satellite tracked, and their position in orbit.
The application will enable local authorities to create ‘Fluid Limited Traffic Zones’ to dynamically regulate access to city centres, thus setting a new standard for city mobility. The technological novelty of the product is the civil use of authentication of the Galileo GNSS signal, paired with a massive cloud based system capable of monitoring multiple vehicles in real time. “The idea of this project is very interesting since it provides flexibility for city traffic management while leveraging Galileo Open Service authentication,” says Redelkiewicz.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
French start-up UBISCALE was named the winner of the first GSA “IoT Solutions empowered by GNSS” award at the 2016 GEO IoT conference.
The Internet of Things (IoT) is everywhere, connecting smartphones, tablets and industrial and home appliances, and making roads, cities, factories and appliances smarter. In every sector of the economy, IoT is enabling objects to exchange data with manufacturers, operators and other devices to create a vast integrated network of connected things and services that is expected to surpass a volume of 50 billion by 2020.
Global Navigation Satellite Systems (GNSS) such as Galileo and EGNOS play a key role in IoT, providing the positioning, velocity and timing information required by an increasing number of context-aware applications.
To raise awareness of the integral role that GNSS plays in IoT, the European GNSS Agency (GSA) sponsored the IoT Solutions empowered by GNSS award within the GEO IoT World conference on 25-26 May in Brussels.
“Galileo brings IoT better accuracy and availability due to its signal strength in such difficult environments as in the city, as well as an authenticated open signal,” says GSA Executive Director Carlo des Dorides. “With this award, the GSA was looking for the most innovative IoT applications that rely on GNSS and leverage the enhanced possibilities offered by Galileo – and we found such an application in UBISCALE, this year’s winning company.”
At the centre of this winning concept is the UbiGNSS™ technology and service that enables true low‐power GNSS‐based IoT services. The UbiGNSS™ solution’s essential insight is that for tracking applications, the device itself does not need to know its position, although the service side tracking applications does.
“From this assessment, we achieved power‐optimised GNSS pre‐processing for end‐devices and shifted the actual calculation of the position to a cloud‐based server, while sustaining the low data rate of Low‐Power Wide‐Area Networking (LPWAN),” says UBISCALE General Manager Samuel Ryckewaert who, along with CTO Mikaël Guenais, received the award during a special ceremony in Brussels. “In comparison to architecture based on GNSS computing the position at the device, the combination of GNSS and LPWAN used in UbiGNSS™ can cut power consumption by ten times, which enables unprecedented battery‐operated and truly cost‐effective tracking applications.”
UbiGNSS™ technology has been engineered to be compatible with all major GNSS systems, but the company anticipates that Galileo, thanks to its modulations and signal strength, will provide additional benefits, especially in terms of urban and other challenging environments.
The company is also anticipating a swift entry into the market. “With the advent of LPWAN networks, we believe our entry is arriving at the right time on the market,” says Guenais. “LPWAN networks are expected to represent 25% of total IoT connectivity by 2020 and will unleash a large volume of opportunities in lower-end devices.”
As well as working with new tracking devices, the UbiGNSS™ solution can also be applied to existing trackers as a firmware upgrade.
In reaching their verdict, the jury, which included GSA Market Development Officer for IoT and LBS Justyna Redelkiewicz and other industry experts, praised the UBISCALE solution, saying: “Power consumption is one of the main barriers for GNSS adoption in IoT. As this project tackles this problem, we think it will have a huge impact on the market.”
In recognition of their achievement, the company received a GSA ‘prism’ trophy and certificate. In addition, UBISCALE will be funded for a business incubation period tailored around their needs, which could include market analysis, business strategy and business plan development, resource mobilisation strategy and international positioning. Furthermore, the company will have access to networking opportunities with industry and investors, investor relations and investor scouting, a dedicated team of GSA-accredited consultants and coaches, along with an extensive network of industry and institutions – all specialised in the GEO IoT market.
In addition to the main prize, the GSA also announced a special prize awarded to the EAGLE (Enhanced Authentication with GaLileo dEvice) device, entered by Italian venture SpaceEXE. This concept integrates a high‐precision GNSS receiver with the capability of authenticating position through the GNSS satellite signal recording, the I.D. satellite tracked, and their position in orbit.
The application will enable local authorities to create ‘Fluid Limited Traffic Zones’ to dynamically regulate access to city centres, thus setting a new standard for city mobility. The technological novelty of the product is the civil use of authentication of the Galileo GNSS signal, paired with a massive cloud based system capable of monitoring multiple vehicles in real time. “The idea of this project is very interesting since it provides flexibility for city traffic management while leveraging Galileo Open Service authentication,” says Redelkiewicz.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The Galileo Reference Centre (GRC), to be located in the Netherlands, will play a crucial role in monitoring Galileo’s performance. The European GNSS Agency (GSA) made the announcement during this week’s European Space Solutions conference in The Hague.
This week during the 4th European Space Solutions conference in The Hague, the GSA announced the establishment of the Galileo Reference Centre (GRC) in Noordwijk, the Netherlands. The GRC’s core mission is to perform independent monitoring of Galileo’s performance and report on its findings.
European Commissioner for Internal Market, Industry, Entrepreneurship and SMEs Elżbieta Bieńkowska and Dutch Minister of Infrastructure and the Environment Melanie Schultz van Haegen joined GSA Executive Director Carlo des Dorides to officially sign the GRC hosting agreement during the conference’s opening session.
“The use of space data is becoming more urgent and relevant in many areas, for example in maritime safety and smart mobility,” says Minister Schultz van Haegen. “The Galileo Reference Centre will help ensure the provision of high quality satellite data so users can better rely on and benefit from Galileo.”
With Galileo Initial Services set to be declared this year, the GRC will play a pivotal role in the programme’s operations. “When operational, the GRC will provide the GSA with an independent system to evaluate the performance of the Galileo Service Operator and the quality of the signals in space,” says des Dorides.
GRC’s core facility in Noordwijk will also actively integrate contributions from the EU Member States, Norway and Switzerland. The core facility is charged with generating performance evaluation products, reporting and performing dedicated campaign-based analyses. It will also rely on a range of facilities and expertise available in the Member States.
The GRC will be implemented using a versioning approach. The first step is expected to be in place at the time of declaration of Galileo Initial Services. The core facility is set to become operational in 2017.
The GRC in Brief
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The fourth edition of the European Space Solutions conference has launched in The Hague, promising a week of exciting discussion and interaction on European space policy and innovation – with European GNSS and the European GNSS Agency (GSA) taking centre stage.
Dutch astronaut André Kuipers officially kicked off the fourth edition of the European Space Solutions conference in The Hague by setting the scene with stories from his time on the International Space Station. Yet even when floating far above the Earth, Kuipers noted his appreciation for the increasing impact that space exploration and space technology has on our daily lives here on the ground. “Whether it’s weather forecasting, providing high precision agriculture or monitoring pollution, space directly impacts everyone’s lives – making us all astronauts on spaceship Earth,” he says.
This theme of linking space technology to earth was a common one throughout the conference’s opening plenary session. “Space technology and data can help resolve issues faced by humanity and help us build practical solutions,” says Dutch Minister of Economic Affairs Henk Kamp, representing the Netherlands Presidency of the Council of the European Union, the official host of the conference. “Space is important for the future of Europe – and Europe is important for the future of space.” On this point, he highlighted Galileo and EGNOS as prime examples of European projects providing global precision and helping to give Europe a competitive edge is such areas as trade and security.
With the declaration of Galileo Initial Services set for later this year, the timing of the conference couldn’t be better. “Now, more than ever, the challenge is to convert the success of the Galileo programme into tangible goods and services that will fuel jobs and growth,” adds European Commissioner for International Market, Industry, Entrepreneurship and SMEs Elżbieta Bieńkowska.
Representing a major step towards accomplishing this objective, the Commissioner joined Dutch Minister of Infrastructure and the Environment Melanie Schultz van Haegen and GSA Executive Director Carlo des Dorides in signing an agreement to establish the Galileo Reference Centre (GRC) right here in the Netherlands. The core mission of the GRC is to perform independent monitoring of Galileo’s performance and report on its findings.
Although already today an array of applications and services are taking advantage of space technology and data, including GNSS and Earth observation, many presenters stressed the need to create more awareness about the role that space plays in our everyday lives. “Connectivity is the oxygen of business, and connectivity and applications are the key to creating jobs and growth,” says Member of the European Parliament Cora van Nieuwenhuizen. “This leads us to only one conclusion: it must support space.”
This is a sentiment echoed by European Commission Director-General for Internal Market, Industry, Entrepreneurship and SMEs Lowri Evans. “We are in the midst of an important and exciting economic moment for the European pace sector, but we need to shift our attention away from the hardware and towards the applications,” she says. “We need to get the data flowing, and this requires us to focus on research and innovation, unlocking skills, ensuring investment and looking at appropriate regulatory tools.”
But this isn’t to say that applications aren’t already benefiting from the technology. For example, in aviation EGNOS is facilitating the safe operation of aircraft at over 200 European airports – a number set to double by 2018. “This innovation represents the biggest technological revolution in aviation since the invention of radar, and the lessons we are learning here are now being exported to such domains as the rail sector,” says des Dorides.
Des Dorides also pointed to the area of location based services (LBS) and the geopositioning market, where the ubiquitous positioning provided by GNSS is being integrated with other technologies to deliver robust, reliable and secure positioning information. “GNSS receivers capable of capturing positioning, navigation and timing data will generate huge, rich data flows – making for a very interesting future for Galileo and its applications,” he concludes.
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The European GNSS Agency (GSA) recently took the EASTLOG stage to discuss the important role that EGNOS and Galileo play within the logistics sector.
Speaking at EASTLOG, Central and Eastern Europe’s largest supply chain and logistics tradeshow, the GSA highlighted the important role that EGNOS and Galileo play within the logistics sector.
According to the GSA, in a market that is as demanding and competitive as that of global logistics, space can provide cost-efficient solutions. “Global navigation satellite systems, or GNSS, are becoming increasingly relied upon by many different logistic-orientated applications, including the very popular track and trace applications and such sophisticated services as proof of delivery, geofencing and monitoring the transport of dangerous goods,” says one GSA representative. “Many of these applications and services demand a high level of accuracy and integrity, and in Europe this is provided by EGNOS and Galileo.”
Based on conversations with various logistic stakeholders during the event, it is clear that service providers in this sector are most interested in solutions that offer additional cost savings. Here the GSA highlighted various GNSS-enabled solutions already on the market, including driver advisory systems that provide additional fuel savings and, in the near future, the autonomous vehicle. Of particular interest is the so-called ‘supply chain visibility’ concept, where GNSS, combined with telecommunication technology, is capable of providing an increased level of clarity to the chain of custody and the possibility to geofence transport corridors.
“The possibility of having such authenticated positioning information is very important to the logistics sector, thus the interest in the potential of Galileo to offer even more cost-efficient and reliable positioning continues to grow,” noted one attendee.
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In addition to overseeing the Galileo service provision, the European GNSS Agency (GSA) is also charged with ensuring that the system’s signals are secure. With Galileo Initial Services set to be declared later this year, the issue of security – and how to define what this means for Europe’s GNSS programmes – is a topic on everyone’s minds and the focus of a dedicated session during the European Space Solutions conference in The Hague.
“Space and security, security and space – whichever way we say it, what is clear is that the two are inextricably linked,” says Security Accreditation Board (SAB) Chairperson Jeremy Blyth. “Every one of us is dependent on space in our daily lives, a fact that will only increase in the years to come. As it does, our expectation that the applications and services we use are safe and secure will also increase.”
The SAB, an independent body hosted by the GSA, evaluates and assesses the security features of both Galileo and EGNOS (the European Geostationary Navigation Overlay Service) and all the services they offer. The board is comprised of security experts from each Member State.
According to Blyth, security is a fundamental issue in all space programmes and, as such, must be one that is embedded into the planning from the beginning. “Only by addressing the security issue from the beginning will security become an enabler within a space programme,” says Blyth. “Security gives us confidence in our space programmes, and we as a service provider must give European citizens confidence in knowing that our systems are providing the security they need.”
What is unique about the Galileo programme is that it is a civil system under civilian control. According to Blyth, the Galileo PRS service is set to give Europe a significant security advantage: “With the PRS, we in Europe have a real opportunity to offer a secure GNSS service – and we need to do it,” he says. “But to do this we must coordinate across agencies and deliver a consistent message: that Europe’s space infrastructure is secure and capable of providing Europe the secure space services it needs.”
Currently, the GSA, through the SAB, is undertaking security accreditation of the complete Galileo system, its operations and services – including the Galileo Open Service. The objective of this effort is to increase the confidence with which the GSA provides the Open Service to all end users in a secure, resilient and reliable manner.
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The European GNSS Agency recently highlighted the many ways your start-up can benefit from Europe’s GNSS programmes – EGNOS and Galileo – during infoShare2016 in Gdansk, Poland.
Recently, the European GNSS Agency (GSA) had the opportunity to talk EGNOS and Galileo at infoShare2016 in Gdansk, Poland. The biggest ICT tech conference in Central and Eastern Europe, the event brought together 5 000 tech professionals, developers, entrepreneurs and innovation leaders to share knowledge and experience about working across Europe.
During a dedicated session on space technology and business, the GSA discussed how space is more than just rockets and missions to other planets. “Space technology, such as GNSS, can benefit business and provide new market opportunities for start-ups and investors,” says GSA Market Development Officer Justyna Redelkiewicz. “For example, the sectors of Location Based Services, aviation, maritime, localisation and data transfer where space is closest to Earth are especially vibrant areas for new companies and investors today.”
In fact, there is a strong link between information and communication technology and the space sector, and the GSA highlighted three specific activities taking place in Poland that link the two. For example, the Galileo Masters Competition is the largest international competition for the commercial use of satellite navigation, helping participants to get their project ready and closer to the market and investors. There’s also the Horizon 2020-funded POSITION project, which works to support global navigation satellite service (GNSS) uptake in Poland, with several of the project’s success stories exhibiting at infoShare (see boxed text).
Given the large number of high-tech professionals and a generally untapped industrial sector, Poland is an attractive market for European GNSS. The GSA-supported POSITION (Polish Support to Innovation and Technology IncubatiON) initiative aims to increase E-GNSS market penetration and general awareness within the country. And judging from the handful of POSITION-supported projects exhibiting on the infoShare exhibition floor, the project is already producing results.
For example, Brumgo is using GNSS positioning information to help vehicles share their location and better plan their routes – an essential tool for companies operating large vehicle fleets. “With Brumgo, we’ve created an application that will change the approach of company owners and fleet operators,” says a company representative. “For example, if you’re in the delivery business, your customers can use the Brumgo app to see exactly where the delivery truck is and when it will arrive – taking away the stress of having to run home so as not to miss the delivery.”
Likewise, a group of researchers from Warsaw University of Technology set out to create an affordable, single-chip solution for precise positioning. The result is ChipCraft, which offers a single-chip dual frequency, dual-system reliable and highly accurate compact navigation receiver. “We saw that many applications required precision better than 1 metre and reliable positioning, but the cost and size of getting that level of precision and positioning kept them out of the market,” says one company researcher. “With ChipCraft, we’ve been able to fill this gap, giving our customers the chance to gain a competitive advantage and be able to offer better and more compact products.”
Another innovative app on display at the infoShare start-up showcase was ParkEasily. We’ve all been in the situation where we circle the block and drive endless kilometres beyond our destination just to find an available parking space. But ParkEasily asks ‘what parking problems?’ The apps aim is to reduce the stress of finding parking and help car park owners optimise the capacity of their parking lots. The application uses a combination of IoT solutions, GNSS positioning and complex algorithms to identify driving and parking trends.
And for those out at sea, Navdec is developing an autonomous ship as a means of avoiding at-sea collisions. Over 2000 collisions happen every year, with each collision costing over USD 1 million – and this doesn’t even factor in loss of life, destruction of cargo or environmental effects. As over 80% of these collisions are due to human error, Navdec aims to remove the human factor from maritime navigation. Its navigation decision support system using GNSS positioning, in combination with other technologies, to qualify encounter situations according to Collision Regulations and provides the navigator a ready-to-use solution for avoiding collisions.
The Horizon 2020-funded POSITION project is a collaboration between Black Pearls Investment (BPI), a Poland-based capital fund experienced in the technology sector, and SpaceTec Partners, a consultancy with offices in Brussels and Munich. The project specifically focuses on start-ups and early-stage investment opportunities for companies in Poland looking to utilise E-GNSS technology.
According to the GSA, there are currently 4 billion GNSS devices globally, a number that is expected to grow in the future. Furthermore, the installed base of GNSS devices is expected to triple by 2023, with growth in all regions. “With this growth, the big data market will grow as well,” says Redelkiewicz. “As the market is expected to top USD 84 billion in 2026, as both the global population and mobile device penetration rises, and use of social media increases, managing this big data brings new business opportunities.”
As an example of the type of opportunities available, Redelkiewicz pointed to a recently launched campaign by Red Roof Inn that uses big data for a new location-based service (LBS) application. Through sourcing freely available weather and flight cancellation information, the company built an algorithm that takes weather severity, travel conditions, time of day, and cancellation rates into consideration, then targeted mobile ads to stranded travellers, making it easier for them to book a nearby hotel. As a direct result of this campaign, the hotel chain has seen a 10 % increase in business.
But the opportunities aren’t limited to the big data market. The Internet of Things (IoT), augmented and virtual reality, and positioning are all ripe for business opportunities. Take for example IoT where in 2008 there were already more ‘things’ connected to the internet than people. By 2020 the amount of internet-connected things will reach 50 billion. Seeing an opportunity in these numbers, Air France KLM is launching its eTrack device, a GNSS-enabled device that tracks and traces luggage. The IoT device, working with an app, allows the owner of the luggage to know where their bags are at all times, enabling a faster bag drop process, improved airport efficiency, reduced stress for travellers, and an improved overall customer experience.
For applications in logistics, engineering, automotive, and the smartphone or tablet markets, augmented reality is increasingly important. Meanwhile the gaming market is benefiting from virtual reality and the level of immersion it offers.
According to Redelkiewicz, new augmented reality products work with GNSS to create an improved user experience. For example, Wikitude World Browser allows users to see everything a city has to offer through one glance at a mobile phone. Looking at real-time data, users can see nearby points of interest and information about their surroundings. Similarly, ForRent.com developed a mobile app that allows apartment searchers to find units by keyword search functionality or via augmented reality. Users point the phone’s camera at surrounding apartments and can then explore photos, prices, floor plans, and amenities of available rentals.
When it comes to positioning, Redelkiewicz says new geofencing technologies define virtual boundaries around real-world areas, creating a radius of interest that can trigger an action in a geo-enabled phone or portable electronic device. “This can be used in fleets of trucks, where if a driver breaks from his route the dispatcher receives an alert, or in Human Resources, where if an employee enters an unauthorised area security receives an alert,” she says.
Redelkiewicz also notes that positioning and navigation are also important indoors, but sometimes accurate indoor positioning or near tall buildings can be a technical challenge. “More effective ubiquitous positioning systems will help many areas, for example, by extending and completing the concept of augmented reality, facilitating targeted advertising, stock tracking, airport navigation, museum tours, and more,” she says.
And then there’s the automotive sector. “Buyers are increasingly looking for new vehicles with internet access, and a McKinsey interview found that 13 % of buyers would no longer consider a new vehicle without internet,” says Redelkiewicz. “GNSS enables connected cars to have many capabilities, including integration with home networks, data exchange with insurers and manufacturers, improved navigation, payment integration, localised information and advertising, police warnings and location, real-time traffic and incident alerts, assisted and automated driving, and more.”
GNSS is also important in emergency situations. eCall, an emergency response system, allows cars to respond to a crash by contacting the emergency service and wirelessly sending airbag and impact sensor information, as well as satellite positioning coordinates. By 2020, eCall will be enabled in 40 million cars and vans sold in Europe.
In Poland, the space sector is increasingly important. When the Polish Space Agency (POLSA) was established in Gdansk in 2014, there was a large focus on the civil side of research and development, as well as education, as knowledge about space was key in launching this new sector for the country. Industries need to support and strengthen the competitiveness of the Polish space industry, transferring knowledge from space to non-space applications. By supporting space research and industry cooperation, there will be a harmonisation of space-sector activities in national and international programmes.
It is also important to create a market for using and transferring data into useable information. To accomplish this, the GSA and POLSA have created a pilot project to increase the efficiency of public administration by enabling it to use services based on satellite data in everyday work. POLSA for Education aims to increase knowledge about space technology, inspiring the next generation of Polish, highly educated specialists and encouraging future students to study space and science. Some universities are also offering new space degrees.
In the future, investment in space will continue to grow. Already, 2015 was a record year for venture capitalist investment in space, driven mainly by IT entrepreneurs. This has already been a trend in the USA, and it’s moving to Europe, meaning that it’s time for businesses and entrepreneurs to harness GNSS technology for innovative solutions, increased customer satisfaction and increased investment.
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A recent event at the European Space Expo in The Hague brought together Dutch Members of Parliament and representatives of various space-based businesses from the Netherlands to make the case for space.
“We now fully realise how space is completely integrated into our daily lives.”
“Space creates opportunities, not only for big companies, but maybe even more for the smaller players and start-ups.”
“It’s clear that we need space solutions in order to overcome the challenges of climate change.”
These were just some of the reactions coming from Dutch Members of Parliament (MPs) following an event at the European Space Expo that brought together Dutch MPs and representatives from the private sector. The Space Continuum programme was held just outside the Dutch Parliament in The Hague and in conjunction with the European Space Solutions conference happening this week.
The event kicked off with a presentation by Dutch astronaut Andre Kuipers, who shared stories from his time on the International Space Station. “When looking down from outer space, it becomes clear how we must take care of our planet, and that the way to do this is with space technology and applications,” he said. “Whether it’s Copernicus or Galileo, we are all astronauts on spaceship Earth.”
This notion that the answer to the challenges we face here on the ground come from space was echoed by Arnaud de Jong, chair of SpaceNed, the association of Dutch space companies. “Every one of us with a smartphone in our pocket is right now connected to several satellites,” he said. “Clearly, connectivity is the new oxygen.”
MPs had the opportunity to meet one-on-one with an array of companies representing both the space sector and those who use space data. Discussions focused on such themes as how to improve the use of satellite data by government bodies, how to optimise the innovative climate for start-ups, and how to use space to inspire today’s youth to pursue careers in science and technology – among others.
Without exception, MPs were surprised and excited about the potential for space applications and the opportunities available to Dutch companies. “This was a very inspiring evening and I’m already planning to visit some Dutch space-based businesses to learn more,” said one MP.
The European Space Solutions conference is organised by the European Commission and the European GNSS Agency (GSA) and held under the auspices of the Dutch Council Presidency. In addition to a packed agenda of presentations covering an array of sectors, the conference also features an exhibition of 50 innovative space applications, technology solutions and cutting-edge research coming from both across Europe and from right here in the Netherlands.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
A recent event at the European Space Expo in The Hague brought together Dutch Members of Parliament and representatives of various space-based businesses from the Netherlands to make the case for space.
“We now fully realise how space is completely integrated into our daily lives.”
“Space creates opportunities, not only for big companies, but maybe even more for the smaller players and start-ups.”
“It’s clear that we need space solutions in order to overcome the challenges of climate change.”
These were just some of the reactions coming from Dutch Members of Parliament (MPs) following an event at the European Space Expo that brought together Dutch MPs and representatives from the private sector. The Space Continuum programme, organised by the Dutch space sector, was held just outside the Dutch Parliament in The Hague and in conjunction with the European Space Solutions conference happening this week.
The event kicked off with a presentation by Dutch astronaut Andre Kuipers, who shared stories from his time on the International Space Station. “When looking down from outer space, it becomes clear how we must take care of our planet, and that the way to do this is with space technology and applications,” he said. “Whether it’s Copernicus or Galileo, we are all astronauts on spaceship Earth.”
This notion that the answer to the challenges we face here on the ground come from space was echoed by Arnaud de Jong, chair of SpaceNed, the association of Dutch space companies. “Every one of us with a smartphone in our pocket is right now connected to several satellites,” he said. “Clearly, connectivity is the new oxygen.”
MPs had the opportunity to meet one-on-one with an array of companies representing both the space sector and those who use space data. Discussions focused on such themes as how to improve the use of satellite data by government bodies, how to optimise the innovative climate for start-ups, and how to use space to inspire today’s youth to pursue careers in science and technology – among others.
Without exception, MPs were surprised and excited about the potential for space applications and the opportunities available to Dutch companies. “This was a very inspiring evening and I’m already planning to visit some Dutch space-based businesses to learn more,” said one MP.
The European Space Solutions conference is organised by the European Commission and the European GNSS Agency (GSA) and held under the auspices of the Dutch Council Presidency. In addition to a packed agenda of presentations covering an array of sectors, the conference also features an exhibition of 50 innovative space applications, technology solutions and cutting-edge research coming from both across Europe and from right here in the Netherlands.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The European GNSS Agency (GSA) joined the European Business Aviation Association (EBAA), together with service providers, to discuss how EGNOS is the key to ensuring the industry’s access to airports.
In recent years, the European Business Aviation Association (EBAA) has seen a steady increase in demand for business aviation. Given the significant time, infrastructure and other resources required to fill this demand, available airport space has dwindled. As large airports become more and more congested, the resulting lack of space is forcing business aviation to smaller and usually less-equipped airports. Unfortunately, all too often these small airports lack the funding needed to support the expensive ground infrastructure required for traditional, precision landing procedures.
In a sense, this leaves business aviation with nowhere to land – a challenge that threatens the viability of the industry. “Airport access is paramount to our industry,” says EBAA President Brian Humphries, speaking at a dedicated session on satellite navigation and airport access during the European Business Aviation Convention and Exhibition (EBACE) in Geneva. “We have to get into the airports as, without access, there is essentially no business aviation.”
Fortunately, according to Humphries, the problem can be resolved. “The capacity crunch at Europe’s major airports is the problem, but we already have the solution – and that solution is the hundreds of regional airports found across the continent,” he says. “Yet, even with the answer right in front of us, we’re not using them because all too often these regional airports lack the technology needed for business aircraft to land safely.”
Which is exactly where the GSA comes in.
As an alternative to costly, ground-based instrument landing procedures (ILS) navigation aids, technology such as EGNOS, the European Geostationary Navigation Overlay Service, utilises geostationary satellites and a network of ground stations to receive, analyse and augment GPS and, soon, Galileo signals. With EGNOS, these satellite signals become suitable for such safety-critical applications as aircraft landing. Thus, EGNOS-enabled LPV-200 (localizer performance with vertical guidance) supports lateral and angular vertical guidance with a decision height of 200 feet. This is a capability similar to what is provided by ground-based navigation aids, but without the same financial burden of installing, maintaining and calibrating ground equipment. In fact, the LPV-200 system is free and requires no additional upgrades to existing airport infrastructure or EGNOS-certified receivers.
“The GSA continues to use EGNOS to open new airports and increase traffic, allowing business aviation to do more business,” says GSA Head of Market Development Gian Gherardo Calini. According to Calini, there are currently 350 EGNOS-based procedures published throughout Europe, with the aim being to have over 440 published by 2018.
In fact, just this month the first LPV-200 approaches were published at Paris Charles de Gaulle (CDG). The approach trials were flown by an ATR 42-600, a Dassault Falcon 2000 and an Airbus A350, with positive pilot feedback. According to Dassault flight test pilot Jean-Louis Dumas, from a pilot’s point of view, there is no difference between ILS and LPV approaches as the design of the Falcon EASY cockpit and the overall workload is exactly the same for both.
“The accuracy and stability of the LPV guidance is really amazing,” says Calini. “Lowering the LPV minima down to 200 feet in Europe is a great improvement enabled by EGNOS, and is very valuable for business aviation operations.”
In addition to supporting precision landings, the fact that EGNOS is not tied to a ground-based system of guidance equipment means that different categories of aircraft could potentially use different approaches on the same runway end. EGNOS is also compatible with other satellite-based augmentation systems (SBAS) worldwide, meaning that users of SBAS can benefit from significant cooperation between providers in overlapping coverage areas. The EGNOS signal itself is free, allowing for unfettered use and greater opportunities for innovation.
The EGNOS proposition is one that has industry-wide support, including from operators, service providers and airports. “There’s more and more demand on the main hubs, especially as low-cost carriers continue to grow,” says Skyguide Sales and Business Development Manager Laurent Delétraz. “As you can’t add more slots, we need to send smaller aircraft to regional airports.”
One such airport is Switzerland’s Sion airport, located high in the Swiss Alps. “The implementation of the LPV approach will open our airport to an array of aircraft that simply cannot currently access Sion” says Sion Airport Director Aline Bovier.”
“To get to the point, what we need is access,” says Netjets Europe pilot Pascal Lhoest, who notes that all of his company’s new jets are LPV-enabled. “If we don’t have airport access, our business model just doesn’t work, so we all have a role to play to make this happen.”
Clearly, this cost-effective, easily implemented technology is the ideal method for business aviation to expand airport capacity and meet demand, as well as ensure that flights run safely and smoothly – and one that the EBAA and GSA continue to collaborate closely on. On this point, Calini praised the use of EGNOS for business aviation, noting that “EGNOS is increasing accessibility to smaller airports and enhancing safety via increased situational awareness”.
This is a sentiment shared by the EBAA. “When you talk about safe access to regional airports without the need for expensive ground instruments, then satellite navigation systems become a very compelling option for business aviation,” says Humphries. “As you saw here today, we have the technology, we have the support of the service providers, most aircraft are already equipped and the regional airports want it. And now, with the support of the GSA and work with the European Commission, it’s time to make it happen.”
To continue to encourage the implementation of LPV procedures, the GSA has several funding opportunities available. For example, under the Horizon 2020 Framework Programme for Research and Innovation, the GSA is supporting projects aimed at implementing global navigation satellite system (GNSS)-related applications, including in aviation. Over the past 2 years, 40 projects have been funded. A new call will be opened in November 2016, with EUR 33 million available in funding.
In order to facilitate the adoption of European GNSS in the area of receivers and in doing so, increase the competitiveness of EU industry, the GSA launched the Fundamental Elements funding scheme. The programme has EUR 111.5 million available until 2020 and, in the aviation segment, is looking to fund projects working to develop dual-frequency, multi-constellation SBAS receivers.
Of specific interest to the aviation segment are the GSA’s Aviation Grants. Launched in 2014, these grants aim to accelerate EGNOS adoption in civil aviation. Two calls have so far been issued, with EUR 6 million budget for each call. The first call awarded funding for EGNOS procedures at 36 airports, 8 point-in-space (PinS) procedures at 7 helipads, the retrofitting of 65 aircraft by 5 operators and 3 simulator upgrades. The second call is still subject to grant agreement finalisations. For more info about possible further calls, please check our website.
Read more: EGNOS and Galileo for Aviation
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).
The fourth edition of the European Space Solutions conference has launched in The Hague, promising a week of exciting discussion and interaction on European space policy and innovation – with European GNSS and the European GNSS Agency (GSA) taking centre stage.
Dutch astronaut André Kuipers officially kicked off the fourth edition of the European Space Solutions conference in The Hague by setting the scene with stories from his time on the International Space Station. Yet even when floating far above the Earth, Kuipers noted his appreciation for the increasing impact that space exploration and space technology has on our daily lives here on the ground. “Whether it’s weather forecasting, providing high precision agriculture or monitoring pollution, space directly impacts everyone’s lives – making us all astronauts on spaceship Earth,” he says.
This theme of linking space technology to earth was a common one throughout the conference’s opening plenary session. “Space technology and data can help resolve issues faced by humanity and help us build practical solutions,” says Dutch Minister of Economic Affairs Henk Kamp, representing the Netherlands Presidency of the Council of the European Union, the official host of the conference. “Space is important for the future of Europe – and Europe is important for the future of space.” On this point, he highlighted Galileo and EGNOS as prime examples of European projects providing global precision and helping to give Europe a competitive edge is such areas as trade and security.
With the declaration of Galileo Initial Services set for later this year, the timing of the conference couldn’t be better. “Now, more than ever, the challenge is to convert the success of the Galileo programme into tangible goods and services that will fuel jobs and growth,” adds European Commissioner for International Market, Industry, Entrepreneurship and SMEs Elżbieta Bieńkowska.
Representing a major step towards accomplishing this objective, the Commissioner joined Dutch Minister of Infrastructure and the Environment Melanie Schultz van Haegen and GSA Executive Director Carlo des Dorides in signing an agreement to establish the Galileo Reference Centre (GRC) right here in the Netherlands. The core mission of the GRC is to perform independent monitoring of Galileo’s performance and report on its findings.
Although already today an array of applications and services are taking advantage of space technology and data, including GNSS and Earth observation, many presenters stressed the need to create more awareness about the role that space plays in our everyday lives. “Connectivity is the oxygen of business, and connectivity and applications are the key to creating jobs and growth,” says Member of the European Parliament Cora van Nieuwenhuizen. “This leads us to only one conclusion: it must support space.”
This is a sentiment echoed by European Commission Director-General for Internal Market, Industry, Entrepreneurship and SMEs Lowri Evans. “We are in the midst of an important and exciting economic moment for the European pace sector, but we need to shift our attention away from the hardware and towards the applications,” she says. “We need to get the data flowing, and this requires us to focus on research and innovation, unlocking skills, ensuring investment and looking at appropriate regulatory tools.”
But this isn’t to say that applications aren’t already benefiting from the technology. For example, in aviation EGNOS is facilitating the safe operation of aircraft at over 200 European airports – a number set to double by 2018. “This innovation represents the biggest technological revolution in aviation since the invention of radar, and the lessons we are learning here are now being exported to such domains as the rail sector,” says des Dorides.
Des Dorides also pointed to the area of location based services (LBS) and the geopositioning market, where the ubiquitous positioning provided by GNSS is being integrated with other technologies to deliver robust, reliable and secure positioning information. “GNSS receivers capable of capturing positioning, navigation and timing data will generate huge, rich data flows – making for a very interesting future for Galileo and its applications,” he concludes.
Media note: This feature can be republished without charge provided the European GNSS Agency (GSA) is acknowledged as the source at the top or the bottom of the story. You must request permission before you use any of the photographs on the site. If you republish, we would be grateful if you could link back to the GSA website (http://www.gsa.europa.eu).