NASA, Partners Test Unmanned Aircraft Systems
WASHINGTON, June 23, 2015 /PRNewswire-USNewswire/ -- NASA,
working with government and industry partners, is testing a system that would
make it possible for unmanned aircraft to fly routine operations in United
States airspace.
Through the agency's Unmanned Aircraft Systems
Integration in the National Airspace System (UAS-NAS) project, NASA, the Federal
Aviation Administration (FAA), General Atomics Aeronautical Systems, Inc.
(GA-ASI) and Honeywell International, Inc., are flying a series of tests which
began on June 17 and will run through July at NASA's Armstrong Flight Research
Center in California.
"We are excited to continue our partnership with
GA-ASI and Honeywell to collect flight test data that will aid in the
development of standards necessary to safely integrate these aircraft into the
National Airspace System," said Laurie Grindle, UAS-NAS project manager at
Armstrong.
This is the third series of tests that builds upon the success
of similar experiments conducted late last year that demonstrated a
proof-of-concept sense-and-avoid system. The tests engage the core air traffic
infrastructure and supporting software components through a live and virtual
environment to demonstrate how an autonomous aircraft interacts with air traffic
controllers and other air traffic.
"This is the first time that we are
flight testing all of the technology developments from the project at the same
time," Grindle said.
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.
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