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The Boeing AH-6 is a series of light helicopter gunships based on the MH-6 Little Bird and MD 500 family. Developed by Boeing Rotorcraft Systems, these include the Unmanned Little Bird (ULB) demonstrator, the A/MH-6X Mission Enhanced Little Bird (MELB), and the proposed AH-6I and AH-6S. ==Design and development== The Unmanned Little Bird demonstrator, which Boeing built from a civilian MD 530F, first flew on September 8, 2004, and made its first autonomous flight (with safety pilot) on October 16, 2004.〔("Boeing Unveils Low-Cost, Versatile 'Little Bird' That Can Fly Manned or as UAV" ). Boeing, October 25, 2004. Retrieved: February 21, 2015.〕 In April 2006, Boeing used the ULB to demonstrate the ability of another helicopter, in this case an AH-64 Apache to remotely control the ULB's weapons payload as a part of Boeing's Airborne Manned/Unmanned System Technology Demonstration (AMUST-D) program. For the initial test, the Apache Longbow was on the ground, while the ULB was airborne several miles away and Hellfire missiles were fired from the ULB by a tester sitting at the co-pilot's station in the Apache. Both aircraft are equipped with tactical common data link equipment and technologies manufactured by L-3 Communications.〔("Boeing Apache and Unmanned Little Bird Demonstrator Test Expands UAV Control" ). Boeing, April 12, 2006. Retrieved: February 21, 2015.〕 The ULB Demonstrator first flew in the unmanned mode on June 30, 2006 from the United States Army's Yuma Proving Ground, flying a pre-programmed 20-minute armed intelligence, surveillance and reconnaissance mission around the facility. All previous flights during the 450 flight hour engineering development phase had a safety pilot on board, although the aircraft was typically flown remotely from the ground.〔("Boeing Unmanned Little Bird Demonstrator Helicopter Flies Unmanned for First Time" ). Boeing, July 12, 2006. Retrieved: February 21, 2015.〕〔Kress, Adam. ("Boeing's Little Bird flys high by remote control" ). ''Phoenix Business Journal'', January 28, 2005. Accessed August 27, 2008.〕 With the successes of the ULB, Boeing incorporated its technologies into an A/MH-6, designating it the A/MH-6X. On September 20, 2006, the first A/MH-6X lifted off on its maiden flight from Boeing Rotorcraft Systems' Mesa, Arizona facility with a pilot on board. While the ULB Demonstrator had a payload of 2,400 pounds, the MELB has an additional 1,000 pounds payload capacity. The A/MH-6X is similar to the A/MH-6M, but includes a prototype glass cockpit and a number of upgrades to the electronics and avionics.〔("Boeing Manned/Unmanned Light Helicopter Makes First Flight" ). Boeing, October 9, 2006. Retrieved: February 21, 2015.〕 The A/MH-6X is an optionally manned or unmanned aircraft which is a hybrid of the ULB demonstrator and the A/MH-6M mission-enhanced Little Bird which is used by US Army Special Operations Command.〔("Army Technology-Unmanned Little Bird project" ). army-technology.com〕 Boeing funded the development program itself; it intends to market the aircraft for both military and homeland security roles within the U.S. and internationally.〔 The aircraft is estimated to cost US$2 million.〔 The systems related to the unmanned flight capabilities have also been designed to be able to be installed in any other helicopter as well, including the Apache.〔〔 An Unmanned Little Bird performed a fully autonomous flight in June 2010, including avoiding obstacles using LIDAR.〔Spice, Byron. (Researchers Help Develop Full-Size Autonomous Helicopter ) ''Carnegie Mellon'', 6 July 2010. Retrieved: 19 July 2010.〕〔Koski, Olivia. ("In a First, Full-Sized Robo-Copter Flies With No Human Help" ). ''Wired'', 14 July 2010. Retrieved: 19 July 2010.〕 In 2009, it was reported that Boeing was working on the "AH-6S Phoenix" for the US Army's restarted ARH program, named Armed Aerial Scout. The AH-6S design is stretched by to allow room for other ARH crew shot down in combat to be recovered. The aircraft also would feature an extended aerodynamic nose to house avionics hardware. AH-6S cockpit and main rotor composite blades are to be based the AH-64D Block III. The AH-6S will have an improved tail rotor and a more powerful Rolls-Royce 250-CE30 engine.〔("Boeing's new Phoenix rises from ARH ashes" ). ''Flight International'', 7 January 2009.〕〔("Boeing Offers Army Two ARH Alternatives" ). ''Aviation Week'', 8 January 2009.〕 The Little Bird has an endurance of 12 hours and carries a maximum mission payload of .〔(Unmanned Little Bird (ULB) Helicopter UAV, United States of America ) army-technology.com〕 The AH-6i is the export version of the AH-6S. The AH-6i first flew on September 16, 2009.〔("Boeing AH-6i Light Attack/Reconnaissance Helicopter Makes 1st Flight" ). Boeing, October 7, 2009.〕 Jordan has expressed interest in ordering the AH-6i in May 2010.〔("Jordan to buy AH-6is" ). ''AirForces Monthly'', 14 May 2010.〕 In October 2010 Saudi Arabia requested 36 AH-6i aircraft with related equipment and weapons from the United States through a Foreign Military Sale.〔("Saudi Arabia – AH-64D APACHE, UH-60M BLACKHAWK, AH-6i Light Attack, and MD-530F Light Turbine Helicopters" ). US Defense Security Cooperation Agency, 20 October 2010.〕〔Bruno, Michael. ("U.S. To Sell F-15s With AESA To Saudi Arabia" ). ''Aviation Week'', 21 October 2010.〕 Kaman Corporation is developing a retrofittable graphite epoxy rotorblade for the AH-6.〔TRAUTVETTER, Chad. ("Kaman Aerospace’s Unmanned K-Max Reports for Duty" ) ''AIN online'', 13 February 2012. Retrieved: 22 August 2012.〕 In summer 2011, an H-6U performed autonomous landings on a moving truck bed for French companies Thales and DCNS for France's General Directorate for Armament, in preparation for sea trials on a French frigate in 2012.〔Thisdell, Dan. (Thales, DCNS ready sea borne trials of unmanned rotorcraft ) ''Flight Global/ElectronicsWeekly'', 15 November 2011. Accessed: 25 November 2011.〕〔(Thales completes successful flight demonstration for full automatic landing and deck landing of one-ton class rotary wing UAVs ) ''Thales'', 14 June 2011. Accessed: 25 November 2011.〕 In October 2012, the AH-6i completed a flight demonstration for the U.S. Army in anticipation of the Armed Aerial Scout program. While the AH-6i is aimed at international customers, Boeing intends to offer it for the program.〔("Boeing demonstrates AH-6i for US Army" ). Flightglobal.com, 23 October 2012.〕 The Army ended the AAS program in late 2013.〔(Outgoing General: US Army Must Continue To Fund Research and Development ) - Defensenews.com, 14 January 2014〕 In December 2012, Boeing demonstrated the Unmanned Little Bird version of the AH-6 to the South Korean Army. The aircraft flew autonomously for 25 minutes to demonstrate the unmanned system's capabilities that can be integrated into Army MD 500 Defender helicopters.〔(Little Bird demo for the Republic of Korea ). SUASNews.com, 14 December 2012〕 In September 2013, Aurora Flight Sciences and Boeing offered the H-6U Little Bird for the U.S. Marine Corps unmanned lift/ISR capability competition. Boeing, working as a subcontractor, is flying the Little Bird without human input near Manassas, Virginia, but with a pilot on board to comply with Federal Aviation Administration regulations. The H-6U is competing against the unmanned Kaman K-MAX, which has a usable external payload of and has been used in theater to resupply Marines. Evaluations were to begin in February 2014 at Marine Corps Base Quantico.〔(USMC Unmanned Lift Competition Taking Shape ) - Defensenews.com, 25 September 2013〕 Marines at Quantico successfully landed an unmanned Little Bird, as well as a K-MAX, autonomously using an mini-tablet computer. The helicopters were equipped with technology called the Autonomous Aerial Cargo/Utility System (AACUS), which combines advanced algorithms with LIDAR and electro-optical/infrared sensors to enable a person holding a tablet to select a point to land the helicopter at an unprepared landing site. Autonomous landing without the need for remote control or tele-operation reduces operator burden and allows them be resupplied or conduct other missions like medical evacuation around the clock. The AACUS weighs , so it can be easily integrated onto other aircraft like the CH-53E Super Stallion and V-22 Osprey. According to Rear Adm. Matthew Klunder, Chief of Naval Research, operational use of the system could be possible by 2015-2016. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Boeing AH-6」の詳細全文を読む スポンサード リンク
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