NASA, Uber to Explore Safety, Efficiency of Future Urban Airspace

/NASA, Uber to Explore Safety, Efficiency of Future Urban Airspace

An artist’s conception of a future where different aircraft – vertical takeoff, traditional takeoff, crewed, uncrewed – safely perform a variety of daily missions in rural to urban environments. Credits: NASA/Advanced Concepts Laboratory

NASA has signed a second space act agreement with Uber Technologies, Inc., to further explore concepts and technologies related to urban air mobility (UAM) to ensure a safe and efficient system for future air transportation in populated areas.  

Under this agreement, Uber will share its plans for implementing an urban aviation rideshare network. NASA will use the latest in airspace management computer modeling and simulation to assess the impacts of small aircraft – from delivery drones to passenger aircraft with vertical take-off and landing capability – in crowded environments.

This is NASA’s first such agreement specifically focused on modelling and simulation for UAM operations.

“NASA is excited to be partnering with Uber and others in the community to identify the key challenges facing the UAM market, and explore necessary research, development and testing requirements to address those challenges,” said Jaiwon Shin, associate administrator for NASA’s Aeronautics Research Mission Directorate. “Urban air mobility could revolutionize the way people and cargo move in our cities and fundamentally change our lifestyle much like smart phones have.”

At its research facility at the Dallas Fort Worth (DFW) International Airport, NASA will use the data supplied by Uber to simulate a small passenger-carrying aircraft as it flies through DFW airspace during peak scheduled air traffic. Analysis of these simulations will identify safety issues as these new aircraft take to the air in an already crowded air traffic control system.

“The new space act agreement broadening Uber’s partnership with NASA is exciting, because it allows us to combine Uber’s massive-scale engineering expertise with NASA’s decades of subject matter experience across multiple domains that are key to enabling urban air mobility, starting with airspace systems,” said Jeff Holden, Uber’s chief product officer.

As small aircraft enter the marketplace, NASA wants to ensure they do so safely, with acceptable levels of noise, and without burdening the current national air traffic control system. To this end, the agency is leveraging ongoing aeronautics research in areas including: Unmanned Aircraft System (UAS) traffic management at low altitude; UAS integration in the National Airspace System; all-electric, general aviation class aircraft development; vertical take-off and landing aircraft; system-wide safety; and more.

NASA’s definition of “urban air mobility” is a safe and efficient system for vehicles, piloted or not, to move passengers and cargo within a city. Credit: NASA

These activities will generate the data necessary to support the creation of industry standards, Federal Aviation Administration rules and procedures, and other related regulations. NASA will make the research available to the broader UAM community.

Source: Press Release

UAV DACH: Beitrag im Original auf https://www.uasvision.com/2018/05/10/nasa-uber-to-explore-safety-efficiency-of-future-urban-airspace/, mit freundlicher Genehmigung von UAS Vision automatisch importiert, Der Beitrag gibt nicht unbedingt die Meinung oder Position des UAV DACH e.V. wieder. Das Original ist in englischer Sprache.

Diese Webseite verwendet Coockies von Jetpack, mehr Infos dazu unter www.jetpack.com/support/coockies. Durch die weitere Nutzung der Seite stimmen Sie der Verwendung von Cookies zu. Weitere Informationen

Die Cookie-Einstellungen auf dieser Website sind auf "Cookies zulassen" eingestellt, um das beste Surferlebnis zu ermöglichen. Wenn Sie diese Website ohne Änderung der Cookie-Einstellungen verwenden oder auf "Akzeptieren" klicken, erklären Sie sich damit einverstanden.

Schließen