NASA and Uber Test System for Future Urban Air Transport

NASA and Uber Test System for Future Urban Air Transport

A new future for city transport is in the works at NASA – a future where both people and packages will take to the air. And, this week, the agency is working with partner company Uber to evaluate certain things we already know and others we still need to invent to manage this expected new air traffic. The goal, known as Urban Air Mobility, or UAM, 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 Research Centers are developing technologies for UAM airspace management to make large-scale operations possible. At Ames, in California’s Silicon Valley, there’s a good foundation to build on. Researchers here have already studied, designed and tested tools and technologies that could be used in the near future to manage the airspace for small drones flying at low altitudes, even in complex urban landscapes. Called Unmanned Aircraft Systems Traffic Management, or UTM, it’s giving a leg up to the emerging world of passengers and goods traveling smoothly above our city streets.

Under a partnership taking urban air mobility forward, Uber is sharing its plans for implementing an urban aviation rideshare network. NASA, as America’s aeronautics research agency, is using the latest in airspace management computer modeling and simulation to assess the impacts of small aircraft in crowded environments.

This week, the two are running tests focused on identifying the kinds of data and information necessary for UAM, where multiple operators of sometimes passenger-sized vehicles will need to fly safely together in the airspace. The teams at Ames and at Uber will connect their computer systems and run through different scenarios that UAM operators could encounter. One focuses on coordinating scheduling of different flights prior to takeoff, for example; another on coordinating different elements of an emergency landing situation.

There are no pilots, aircraft or air traffic controllers at these particular tests, which are centered on computer simulations of air traffic around the Dallas-Fort Worth airport. Instead of human participants, NASA and Uber will evaluate highly automated algorithms for managing city-going air vehicles in the airspace.

The evaluation will help the teams understand how to adapt the small-drone architecture and services of UTM for the new UAM operations, and what additional data the new system will need to provide. For example, NASA and Uber researchers found it was necessary to communicate the specific times when their respective UAM flights were expected to cross route intersection points and how much buffer around those times was needed to allow for unexpected events during flight.

One year ago at Ames, in September 2018, a UAM activity involving human users took place to test the foundation of this UAM airspace management system. Based on the success of that test, the system was matured to where it is today.

While this year’s evaluation test was with Uber, NASA intends to collaborate with many partners and ensure airspace operations will meet the needs of multiple use cases and be interoperable with the Federal Aviation Administration’s systems.

With its partners, NASA will continue developing the UAM airspace system for NASA’s UAM Grand Challenge. This is a series of activities aimed at putting relevant technology in development to use. The knowledge gained from these efforts will help prepare the many parties supporting Urban Air Mobility for a full field demonstration of vehicles and operators’ systems in an urban environment.

For news media

Members of the news media interested in covering this topic should reach out to the NASA Ames newsroom or, to contact Uber, email Matthew Wing.

Author: Abby Tabor, NASA’s Ames Research Center

URBAN AIR MOBILITY SYMPOSIUM 2019 - November 21st, 2019
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Urban air mobility means a safe and efficient system for vehicles, piloted or not, to move passengers and cargo within a city.