From mid-June through July, the agency’s project on UAS Integration in the National Airspace System (NAS) will conduct flight testing of sense-and-avoid technology at the NASA Armstrong Fight Research Center in California. These flights will conduct the first full test of an automatic collision avoidance capability on autonomous aircraft. Participating in the tests are the U.S. Federal Aviation Administration (FAA), General Atomics Aeronautical Systems Inc. and Honeywell International Inc.
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| Ikhana aircraft, based at Armstrong, equipped with an updated sense-and-avoid system |
This series of tests is made up of two phases.
The first is focused on validation of sensor, trajectory and other
simulation models using live data. Some of the tests will be flown with
an Ikhana aircraft, based at Armstrong, that has been equipped with an
updated sense-and-avoid system. The system includes a new traffic
collision avoidance program and other advanced software from Honeywell.
Other tests will involve an S-3B plane from NASA's Glenn Research Center in Cleveland,
serving as a high-speed piloted surrogate aircraft. Both tests will use
other aircraft following scripted flight paths to intrude on the flight
path the autonomous craft is flying, prompting it to either issue an
alert or maneuver out of the other aircraft's path. These flights will
also conduct the first full test of an automatic collision avoidance
capability on autonomous aircraft.
During the June 17
test, which lasted a little more than five hours, the team accomplished
14 encounters using the Ikhana aircraft and a Honeywell-owned Beech C90
King Air acting as the intruder. A second test was flown the following
day, with a total of 23 encounters. The project team plans to fly more
than 200 encounters throughout the first phase of the test series.
"Our
researchers and project engineers will be gathering a substantial
amount of data to validate their pilot maneuver guidance and alerting
logic that has previously been evaluated in simulations," said Heather Maliska, Armstrong's UAS-NAS deputy project manager.
The
second phase of the third test series will begin in August and will
include a T-34 plane equipped with a proof-of concept control and
non-payload communications system. It will evaluate how well the systems
work together so that the aircraft pilots itself, interacts with air
traffic controllers and remains well clear of other aircraft while
executing its operational mission. The aircraft, which will have an
onboard safety pilot, will fly an operationally representative mission
in a virtual airspace sector complete with air traffic control and live
and virtual traffic.
For more information about NASA's aeronautics research, visit:
For more information on the UAS-NAS project, visit:
Previously/Background:
- Nasa and partners trial new system for unmanned aircraft - Aerospace Technology
- UAS Integration in the NAS Project Baseline Review
- NASA, government, and industry partner to test UAS sense-and-avoid technology - Intelligent Aerospace
- spendergast: NAVAIR picks Small Business RDRTec to develop sense-and-avoid radar for Fire Scout and Triton unmanned aircraft
- spendergast: Air Force funds DRA with SBIR for UAV SAA system
- spendergast: GA-ASI, FAA, and NASA team to develop and test UAV Sense and Avoid
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