Policy
Policy
United States
United States
UTM
UTM
Wing Demonstrates Decentralized Drone Traffic Management as Part of FAA Pilot Program
Written by
Wing Team
Published
Sep 4, 2019
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In June, the United States Federal Aviation Administration (FAA) held a demonstration of its Unmanned Traffic Management (UTM) pilot program. Wing participated in the demonstration alongside GE, ANRA Technologies, and AirMap at the Mid-Atlantic Aviation Partnership (MAAP) test site at Virginia Polytechnic Institute in Blacksburg, Virginia.
Extending the progress made by NASA’s four-year Technical Capability Level (TCL) research program, the demonstration showed how a decentralized UTM system works, with air traffic management occurring within a standards-based, open-source ecosystem of interoperable platforms. This decentralized approach allows multiple companies to innovate on solutions to support a range of different types of drone flyers, while sharing critical safety information among all users.
As part of the demonstration, the FAA directed Wing and other participants to execute a series of exercises involving multiple aircraft in low-altitude airspace. The FAA evaluated participants’ ability to execute the deconfliction of flight paths, and the ability to receive notification of time-sensitive no-fly zones and adapt flight plans accordingly.
The demonstration scenarios included:
A helicopter conducting a low-altitude rescue mission, requiring multiple drone users to evaluate a ‘no fly zone’ notification and to change flight-paths if necessary;
A scenario in which users deconflicted flight-paths in the aftermath of a severe storm;
The reporting of non-compliant drone activity to the FAA, via a UTM platform.
Drones serve a diverse range of purposes, from transporting goods, to surveying farms, to assisting emergency service workers. Wing believes that a decentralized, interoperable approach to traffic management enables nations to effectively manage the diversity of drone operations safely, and at a low cost, and the UPP demonstration showed that multiple drone service providers have technical solutions available today that will facilitate this approach.
In June, the United States Federal Aviation Administration (FAA) held a demonstration of its Unmanned Traffic Management (UTM) pilot program. Wing participated in the demonstration alongside GE, ANRA Technologies, and AirMap at the Mid-Atlantic Aviation Partnership (MAAP) test site at Virginia Polytechnic Institute in Blacksburg, Virginia.
Extending the progress made by NASA’s four-year Technical Capability Level (TCL) research program, the demonstration showed how a decentralized UTM system works, with air traffic management occurring within a standards-based, open-source ecosystem of interoperable platforms. This decentralized approach allows multiple companies to innovate on solutions to support a range of different types of drone flyers, while sharing critical safety information among all users.
As part of the demonstration, the FAA directed Wing and other participants to execute a series of exercises involving multiple aircraft in low-altitude airspace. The FAA evaluated participants’ ability to execute the deconfliction of flight paths, and the ability to receive notification of time-sensitive no-fly zones and adapt flight plans accordingly.
The demonstration scenarios included:
A helicopter conducting a low-altitude rescue mission, requiring multiple drone users to evaluate a ‘no fly zone’ notification and to change flight-paths if necessary;
A scenario in which users deconflicted flight-paths in the aftermath of a severe storm;
The reporting of non-compliant drone activity to the FAA, via a UTM platform.
Drones serve a diverse range of purposes, from transporting goods, to surveying farms, to assisting emergency service workers. Wing believes that a decentralized, interoperable approach to traffic management enables nations to effectively manage the diversity of drone operations safely, and at a low cost, and the UPP demonstration showed that multiple drone service providers have technical solutions available today that will facilitate this approach.
In June, the United States Federal Aviation Administration (FAA) held a demonstration of its Unmanned Traffic Management (UTM) pilot program. Wing participated in the demonstration alongside GE, ANRA Technologies, and AirMap at the Mid-Atlantic Aviation Partnership (MAAP) test site at Virginia Polytechnic Institute in Blacksburg, Virginia.
Extending the progress made by NASA’s four-year Technical Capability Level (TCL) research program, the demonstration showed how a decentralized UTM system works, with air traffic management occurring within a standards-based, open-source ecosystem of interoperable platforms. This decentralized approach allows multiple companies to innovate on solutions to support a range of different types of drone flyers, while sharing critical safety information among all users.
As part of the demonstration, the FAA directed Wing and other participants to execute a series of exercises involving multiple aircraft in low-altitude airspace. The FAA evaluated participants’ ability to execute the deconfliction of flight paths, and the ability to receive notification of time-sensitive no-fly zones and adapt flight plans accordingly.
The demonstration scenarios included:
A helicopter conducting a low-altitude rescue mission, requiring multiple drone users to evaluate a ‘no fly zone’ notification and to change flight-paths if necessary;
A scenario in which users deconflicted flight-paths in the aftermath of a severe storm;
The reporting of non-compliant drone activity to the FAA, via a UTM platform.
Drones serve a diverse range of purposes, from transporting goods, to surveying farms, to assisting emergency service workers. Wing believes that a decentralized, interoperable approach to traffic management enables nations to effectively manage the diversity of drone operations safely, and at a low cost, and the UPP demonstration showed that multiple drone service providers have technical solutions available today that will facilitate this approach.
In June, the United States Federal Aviation Administration (FAA) held a demonstration of its Unmanned Traffic Management (UTM) pilot program. Wing participated in the demonstration alongside GE, ANRA Technologies, and AirMap at the Mid-Atlantic Aviation Partnership (MAAP) test site at Virginia Polytechnic Institute in Blacksburg, Virginia.
Extending the progress made by NASA’s four-year Technical Capability Level (TCL) research program, the demonstration showed how a decentralized UTM system works, with air traffic management occurring within a standards-based, open-source ecosystem of interoperable platforms. This decentralized approach allows multiple companies to innovate on solutions to support a range of different types of drone flyers, while sharing critical safety information among all users.
As part of the demonstration, the FAA directed Wing and other participants to execute a series of exercises involving multiple aircraft in low-altitude airspace. The FAA evaluated participants’ ability to execute the deconfliction of flight paths, and the ability to receive notification of time-sensitive no-fly zones and adapt flight plans accordingly.
The demonstration scenarios included:
A helicopter conducting a low-altitude rescue mission, requiring multiple drone users to evaluate a ‘no fly zone’ notification and to change flight-paths if necessary;
A scenario in which users deconflicted flight-paths in the aftermath of a severe storm;
The reporting of non-compliant drone activity to the FAA, via a UTM platform.
Drones serve a diverse range of purposes, from transporting goods, to surveying farms, to assisting emergency service workers. Wing believes that a decentralized, interoperable approach to traffic management enables nations to effectively manage the diversity of drone operations safely, and at a low cost, and the UPP demonstration showed that multiple drone service providers have technical solutions available today that will facilitate this approach.
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© 2025 Wing. The Wing logo is a trademark of Wing Aviation LLC. Copyright © Wing Aviation LLC. All rights reserved
The future of delivery is here. Right on time.
With Wing, delivery’s easy, fast, and fun. Learn more and find out if Wing delivers in your area.
Get delivery
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Get delivery
© 2025 Wing.
The Wing logo is a trademark of Wing Aviation LLC. Copyright © Wing Aviation LLC. All rights reserved
The future of delivery is here. Right on time.
With Wing, delivery’s easy, fast, and fun. Learn more and find out if Wing delivers in your area.
Get delivery
Get delivery
Get delivery
© 2025 Wing. The Wing logo is a trademark of Wing Aviation LLC. Copyright © Wing Aviation LLC. All rights reserved