Mon, Oct 24, 2011
Office Of Naval Research To Start Testing Next Year
Select pilots in early 2012 will commence testing new flight
control software, funded in part by the Office of Naval Research
(ONR), intended to facilitate aircraft landings on Navy carrier
decks with unprecedented accuracy. "The precision that we can bring
to carrier landings in the future will be substantial," said
Michael Deitchman, deputy chief of naval research for naval air
warfare and weapons. "The flight control algorithm has the
potential to alter the next 50 years of how pilots land on carrier
decks."
Navy and Marine Corps aviators conducting carrier landings today
line up with a moving flight deck in a complicated process. They
must constantly adjust their speed and manipulate the aircraft's
flight control surfaces-ailerons, rudders and elevators-to maintain
the proper glide path and alignment to the flight deck for an
arrested landing. Throughout their approach, pilots eye a set of
lights-known as the Fresnel lens-located on the left side of the
ship. It signals whether they are coming in too high or too
low.
The new algorithm embedded in the flight control software
augments the landing approach. Coupled with an experimental
shipboard light system called a Bedford Array and accompanying
cockpit heads-up display symbols, the software ties the movement of
the pilot's control stick directly to the aircraft's flight path.
Instead of constantly adjusting the plane's trajectory indirectly
through attitude changes, the pilot maneuvers the aircraft to
project a dotted green line in the heads-up display over a target
light shining in the landing area.
"It is almost like a video game," said James "Buddy" Denham, the
senior engineer who has been leading the research and development
efforts at Naval Air Systems Command. "You're tracking a shipboard
stabilized visual target with a flight path reference, and the
airplane knows what it needs to do to stay there."
ONR funded the project as part of its focus on sea-based
aviation, one of five Navy and Marine Corps research areas
designated as a national naval responsibility. The software has
been incorporated into an F/A-18 E/F Super Hornet flight simulator.
Researchers plan to conduct a study with U.S. Navy pilots and
British Royal Navy pilots who will fly the simulator to obtain data
on workload reduction and touchdown performance. Once the results
are tabulated, the engineers plan to integrate the refined
algorithm onto an actual aircraft for flight tests and
demonstrations.
If the tests are successful, the software could be integrated
aboard current and future aircraft to change the way carrier-based
aviators have landed aboard ships for more than half a
century-controlled crash landings. Increasing the precision of
landings will boost pilot safety and reduce training requirements
necessary to perfect carrier-landing skills. It could lower
aircraft life cycle costs by reducing maintenance and avoiding
repairs caused by hard landings.
More News
Airport Marking Aids Markings used on runway and taxiway surfaces to identify a specific runway, a runway threshold, a centerline, a hold line, etc. A runway should be marked in ac>[...]
"It is extremely difficult, if not impossible, for manned aircraft to see a drone while conducting crop-enhancing and other aerial applications at low altitudes and high speeds. We>[...]
Aero Linx: The Skyhawk Association The Skyhawk Association is a non-profit organization founded by former Skyhawk Pilots which is open to anyone with an affinity for the A-4 Skyhaw>[...]
“The T-54A benefits from an active Beechcraft King Air assembly line in Wichita, Kansas, where all required METS avionics and interior modifications are installed on the line>[...]
Aero Linx: Aerostar Owners Association The Association offers the Aerostar Owner a unique opportunity to tap an invaluable source of information concerning the care and feeding of >[...]