June 25, 2005 The Boeing X-45A unmanned aircraft continues to impress in trials as it showcases its ability to adapt to a realistic and changing wartime operational environment. During a recent test flight, its 52nd to date, an X-45A departed from NASA’s Dryden Flight Research Center at Edwards Air Force Base in California, climbed to 29,000 ft. and entered the base’s test range. While flying the mission, several simulated Surface-to-Air Missile (SAM) emitters were activated and the unmanned aircraft autonomously created its own flight plan to remain out of lethal range of the simulated SAM sites. Always managed by the pilot-operator, the X-45A then attacked its simulated priority ground target and showcased the ability to suppress enemy air defenses. Once the aircraft had conducted a simulated battle damage assessment, the X-45A safely returned to Edwards.
“The X-45A proved it could autonomously react to a dynamic threat environment while engaging a priority target,” said David Koopersmith, Boeing J-UCAS X-45 vice president and program manager. “Onboard planning and decision capabilities like these will make our next unmanned system, the X-45C, a highly survivable platform for the warfighter.”
The first X-45C will be completed in 2006, with flight-testing scheduled to begin in 2007. It will be 39 feet long with a 49-foot wingspan, cruise at 0.80 Mach at an altitude of 40,000 feet, carry a 4,500 pound weapon payload, and be able to fly a combat radius of more than 1,200 nautical miles. The software used and tested on the X-45A may be offered as a candidate for functionality in the development of the J-UCAS Common Operating System.
Boeing began its unmanned combat aircraft program in 1998. The following year, the Defense Advanced Research Projects Agency (DARPA) and the U.S. Air Force chose Boeing to build two X-45A air vehicles and a mission control station under the J-UCAS Advanced Technology Demonstration Program.
Winner of a 2005 Flight International Aerospace Industry Award, the J-UCAS X-45 program is a Boeing/DARPA/Air Force/Navy effort to demonstrate the technical feasibility, military utility and operational value of an unmanned air combat system for the Air Force and the Navy. Operational missions for the services may include persistent strike; penetrating electronic attack; suppression of enemy air defenses; and intelligence, surveillance and reconnaissance.
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