The UTM Pilot Program has ended it’s second phase, with a group of industry players demonstrationg the production ready technologies that will help enable drone integration.
“The FAA’s Unmanned Aircraft System Traffic Management Pilot Program (UPP) completed its second phase with the Mid-Atlantic Aviation Partnership (MAAP) at a final demonstration in Virginia this week,” says a Wing communication. “The program launched in early 2019 to identify the set of baseline capabilities required to support drone integration and ultimately inform the FAA’s Unmanned Aircraft System Traffic Management (UTM) implementation plan.”
The UTM Pilot Program is way to bring the complex layers of a robust framework together, allowing for collaboration between major providers. “Industry partners Wing, AirMap, AiRXOS, and ANRA came to the program with production ready technology and processes that could demonstrate “Remote Identification (RID) technologies and operations with increasing volumes and densities” to enable a UTM ecosystem in a new, innovative way – not simply relying on what we know from traditional aviation.”
“When drone operators, such as those who participated in the UPP2 demonstration, are choosing to fly their drones, they need assurance that they’ll have up-to-date information needed to fly safely and compliantly in the airspace. Those operations are supported by several industry-led UTM service suppliers, which allow for interoperability and shared information of drone operations in the airspace.”
“The program has successfully demonstrated that the UTM technology infrastructure has reached a level of maturity that can support the next phase of drone integration; one that will enable BVLOS operations,” Matthew Satterly, Policy and Government Relations at Wing, tells DRONELIFE.
VIDEO: UTM Pilot Program Shows Future of Scalable Drone Operations
The following is taken from a Wing communication.
To enable broader use of Unmanned Aircraft Systems (UAS), industry-provided services must be able to safely deconflict operations and provide law enforcement and other safety agencies the ability to identify UAS when needed. To achieve these objectives, Unmanned Aircraft System Service Suppliers (USS) must be able to seamlessly share data about flights, including the details of where and when a flight will take place as well as current position and identification information for all active flights. No matter what USS a drone flyer chooses to use, all operators should have access to the data they need to fly safely.
UPP2 was able to demonstrate remote identification and strategic deconfliction through alignment with standards, including the use of a common data sharing architecture for interoperability.
Five different use cases were demonstrated during the program, and all five relied on a common architecture for exchanging data with one another. This data sharing architecture is built on the discovery and synchronization service (DSS) that enables USSs to discover with whom they need to share data and ensures USS’s have a current and consistent view of shared data. Wing and ANRA each hosted DSS instances; the common architecture allows any USS to host an instance.
For example, an operator using Wing’s OpenSky application wants to plan a flight where another operator using AirMap has already planned and received approval for their flight. When OpenSky goes to validate the operator flight, the DSS will tell it – a flight already exists there and it was created by AirMap. OpenSky contacts AirMap to obtain information about its operation and uses that information to automatically deconflict with one another.
We were also able to demonstrate standards-compliant ways to enable remote identification. For example, one of the simulations was a drone delivery conducted while a temporary flight restriction (TFR) was in place for a nearby football game. A local police officer was tasked with monitoring the airspace for unauthorized drone operators using a remote ID display. The delivery drone had permission from the FAA to operate within the TFR. The USS verified the authenticity of the authorization prior to the flight, and then included the authorization in the remote ID data for the flight.
There are multiple stakeholders in a UTM network; USSs need to communicate directly amongst themselves. This use case merges critical UTM concepts with the necessary remote ID, including approved waivers for flight, trusted verification for flying in TFR areas, and approved operators based on their waivers; as such the value of the network RID increases.
The variety of operations enabled by unmanned flight are as exciting as they are numerous: utilizing UASs to help during natural disasters, transport goods, conduct agricultural monitoring, or perform hazardous work remotely. The wide scale adoption of UASs will result in a safer, cleaner, and more efficient world.
Getting there will require continued innovation on many fronts, the most crucial of which will be proving out and codifying a collaborative, open system to manage the increased air traffic that will result from the proliferation of UASs in our world. UPP2 was a critical step to enable such a system that will allow UASs to expand the benefits of aviation to more people around the world.
Miriam McNabb is the Editor-in-Chief of DRONELIFE and CEO of JobForDrones, a professional drone services marketplace, and a fascinated observer of the emerging drone industry and the regulatory environment for drones. Miriam has penned over 3,000 articles focused on the commercial drone space and is an international speaker and recognized figure in the industry. Miriam has a degree from the University of Chicago and over 20 years of experience in high tech sales and marketing for new technologies.
For drone industry consulting or writing, Email Miriam.
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