Tag: Traffic Management Systems
NASA + Uber Aerial Mobility Testing Continues
Uber and NASA are collaborating to simulate the future of eVTOL ridesharing services. According to NASA, the end goal of the collaboration with Uber is a safe and efficient air transportation system where everything from small package-delivery drones to passenger-carrying air taxis operate over populated areas – from small towns to the largest cities. Researchers at NASA’s Ames and Langley...

NASA + Uber Aerial Mobility Testing Continues

Uber and NASA are collaborating to simulate the future of eVTOL ridesharing services.
According to NASA, the end goal of the collaboration with Uber is a safe and efficient air transportation system where everything from small package-delivery drones to passenger-carrying air taxis operate over populated areas – from small towns to the largest cities.

Credit // NASA
Researchers at NASA’s Ames and Langley Research Centers are developing technologies for UAM airspace management to make large-scale operations possible. Researchers at Ames have already studied, designed and tested technologies that could soon be used for drone airspace management, even in complex urban landscapes.
In this partnership, Uber is sharing its plans for implementing an aerial mobility eVTOL rideshare network. NASA meanwhile, as America’s aeronautics research agency, is using the latest in airspace management computer modeling and data collection to assess the impacts of small aircraft in crowded environments, and begin designing management systems.
Related: Uber Air Stands Up First Flying Taxi Test Site
A series of collaborative meetings between NASA, the Federal Aviation Administration (FAA)’s Air Traffic and NextGen organizations, and Uber, are currently ongoing at NASA Ames Research Center. The focus of these meetings is to discuss near- and mid-term UAM procedures and identify top priorities in development and regulation. In fact, the Air Traffic Management Exploration (ATM-X) project’s Increasing Diverse Operations (IDO) subproject recently led a discussion on long term research needs for new entrants into the National Airspace System (NAS).

Demonstration of X2 to FAA and Uber visitors. Credit // NASA
An engineering evaluation called “X2” saw the NASA Air Traffic Management Exploration (ATM-X) Urban Air Mobility (UAM) team collaborate with Uber Elevate to run a complete simulation of eVTOL flights over Dallas-Fort Worth, Texas. The NASA team demonstrated the X2 simulation’s use cases such as a live connection to Uber’s simulation facilities and virtual flights. The series of 40-minute test scenarios was reported to be a success, and further simulations are already being planned..
Why it’s important: Simulating eVTOL air traffic over Dallas is a key part of beginning Uber’s aerial ridesharing services planned to begin as early as 2023. Through sophisticated simulations, Uber and NASA will allow involved parties to understand and successfully plan the management of airspace. Uber plans to conduct demonstration flights in Dallas in 2020.
Source // NASA, Uber
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EHang Establishes UAV Control Center at Heydar Aliyev Airport
EHang and Azerbaijan Airlines join to manage UAV traffic at Heydar Aliyev International. The agreement was signed on October 9, 2019 in Baku by EHang Founder, Chairman and CEO Huazhi Hu and Azerbaijan Airlines (AZAL) President Jahangir Asgarov. EHang has recently made signficant strides in advancing the operations and implementation of its cutting-edge autonomous air vehicle (AAV) technologies, and is...

EHang Establishes UAV Control Center at Heydar Aliyev Airport

EHang and Azerbaijan Airlines join to manage UAV traffic at Heydar Aliyev International.
The agreement was signed on October 9, 2019 in Baku by EHang Founder, Chairman and CEO Huazhi Hu and Azerbaijan Airlines (AZAL) President Jahangir Asgarov.
EHang has recently made signficant strides in advancing the operations and implementation of its cutting-edge autonomous air vehicle (AAV) technologies, and is now considering filing for a U.S. initial public offering (IPO). The company continues to seek worldwide opportunities to increase deliveries of vehicles and begin flights in cities, proven by over 100 passenger-carrying autonomous test flights.
The command-and-control center will allow Azerbaijan Air Navigation Services (AZANS), the air navigation services provider for the Republic of Azerbaijan, to control UAV traffic on the airport’s premises and prevent the unauthorized use of UAVs. It will be fully integrated with the Azerbaijani air traffic control system, serving more than 500 aircraft daily, 300 of which are transit flights over Azerbaijan.
The command-and-control center will also equip AZANS with technologies including 3D mapping and terrain scanning to support airfield design and aerial navigation map development. A future web application could include UAV and pilot registration information, certification documents and permissions for flight procedures. As part of the agreement, EHang will also train UAV specialists at the National Academy of Aviation of Azerbaijan and build a UAV management simulator complex.
“UAVs represent a significant opportunity to optimize airport operations, but it is important to launch them into the right infrastructural framework,” said Hu Huazhi. “Our command-and-control center enables the seamless integration of new aerial mobility options into existing air traffic patterns and we are excited to partner with AZANS on this project, which paves the way for future partnerships with aviation authorities globally.”
Why it’s important: Heydar Aliyev International Airport has set a convincing precedent as it recently became the first airport in the world to completely switch to Cloud technologies. Now, the implementation of a UAV traffic management system further demonstrates ways by which airports can prepare for technological advancements in aviation and airspace management.
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