Athena Technologies Successfully Controls and Autonomously Lands a Damaged Unmanned Aerial Vehicle.WARRENTON, Va. -- Athena Technologies Athena Technologies is a developer and manufacturer of control and navigation solutions for Unmanned Aerial Vehicles (UAVs) and Unmanned Ground Vehicles (UGVs). Athena's GuideStar product line provides INS/GPS solutions that integrate IMU, GPS, magnetometer and air data signals for , Inc., a leading provider of flight control and navigation systems, today announced the successful flight demonstration of damage tolerant flight control and autonomous landing capabilities on a subscale F/A-18 UAV UAV Unmanned Aerial Vehicle UAV Unmanned Air Vehicle UAV Unmanned Aerospace Vehicle UAV Unmanned Airborne Vehicle UAV Uninhabited Air Vehicle UAV Urban Assault Vehicle UAV Unpiloted Aerial Vehicle (less common) . The Defense Advanced Research Projects Agency Defense Advanced Research Projects Agency (DARPA), U.S. government agency administered by the Department of Defense (see Defense, United States Department of). (DARPA DARPA: see Defense Advanced Research Projects Agency. (Defense Advanced Research Projects Agency) The name given to the U.S. Advanced Research Projects Agency during the 1980s. It was later renamed back to ARPA. ) sponsored the demonstration which was held on April 18, 2007 at the Aberdeen Proving Grounds in Maryland. The objective of the test was to prove that adaptive flight controls could regain baseline aircraft performance after the aircraft had sustained simulated battle damage and then safely land the aircraft autonomously with only the onboard INS/GPS functionality of Athena's GuideStar[TM] 111m for navigation. The demonstration involved a subscale F/A-18 UAV, powered by a turbojet turbojet: see turbine. turbojet Jet engine in which a turbine-driven compressor draws in and compresses air, forcing it into a combustion chamber into which fuel is injected. engine, that sustained wing battle damage simulated with the in-flight ejection of an aileron aileron: see airfoil; airplane. . Athena's damage tolerant controls detected the damage in flight and adapted to the new air vehicle configuration for the effects of the lost aileron, recovering the baseline vehicle performance. The vehicle then successfully landed in the damaged state with Athena's INS/GPS-only autonomous landing system within a few feet of the target touch down point on the airfield runway. Damage tolerance Damage tolerance is the ability to withstand damage. The term is most often used in aerospace engineering to indicate the following characteristics of a component or material: The demonstration highlights the challenge and importance of the ability to autonomously land an air vehicle that has sustained damage. This powerful capability can potentially save the military the significant expense of lost UAVs and better protect US proprietary technology. More importantly, when applied to manned aircraft, the combined technology solution can save lives. Videos of the flight demonstration can be viewed from Athena's web site at: http://www.athenati.com/case_studies_videos/video_library. Athena's flight control systems are used today to control and autonomously land hundreds of UAVs in operation in Iraq and Afghanistan. Athena's controls technology is based on unique algorithms that have been developed and evolved in one and a half decades of use. The company's evolutionary suite of control algorithms has been built on experience achieved on a variety of UAVs and flying over 160,000 hours in combat theater. Athena packages its controls technology with sensors and hardware, offering complete solutions through its GuideStar[TM] family of flight control and navigation products. About Athena Technologies Athena Technologies is a premier developer and producer of navigation and control systems. Founded in 1998, the company produces the GuideStar[TM] family of versatile, compact and cost-effective flight control systems for applications such as commercial aircraft and unmanned aerial vehicles
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