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[3] 余旭東.未來戰場上無人機作戰使用十大方式[J].國防科技,2005(03):76-78.
Yu X D.Ten ways of UAV operation in the future battlefield[J].National Defense Science & Technology,2005(03):76-78.
[4] 馬碩,馬亞平.基于分層目標任務網絡的作戰任務規劃方法[J].火力與指揮控制,2020,45(02):110-114.
Ma S,Ma Y P.A Mission planning method based on hierarchical goal-task network[J].Fire Control & Command Control,2020,45(02):110-114.
[5] 李鵬舉,毛鵬軍,耿乾,等.無人機集群技術研究現狀與趨勢[J].航空兵器,2020,27(04):25-32.
Li P J,Mao P J,Geng Q,et al.Research status and trend of UAV swarm technology[J].Aero Weaponry,2020,27(04):25-32.
[6] 薛瞾涵.艦載直升機安全著艦策略分析[D].南京:南京航空航天大學,2018.
Xue Z H.Analysis of safe landing strategy of shipborne helicopter[D].Nanjing University of Aeronautics and Astronautics,2018.
[7] 陳杰敏,吳發林,耿澄浩,等.四旋翼無人機一致性編隊飛行控制方法[J].航空兵器,2017(06):25-31.
Chen J M,Wu F L,Geng C H,et al.Consensus-based formation control approach for quadrotor UAVs[J].Aero Weaponry,2017(06):25-31.
[8] 孫盛智,孟春寧,侯妍.無人機與巡航導彈自主協同作戰模式及關鍵技術[J].航空兵器,2019,26(04):10-15.
Sun S Z,Meng C N,Hou Y.Autonomous coordinated operation modes and key technologies between UAVS and cruise missiles[J].Aero Weaponry,2019,26(04):10-15.
[9] 韓維,吳立堯,張勇.艦載戰斗機/無人機編隊飛行控制研究現狀與展望[J].科學技術與工程,2019,19(36):73-80.
Han W,Wu L Y,Zhang Y.Review and prospect of flight control of carrier-based aircraft/unmanned aerial vehicles formation[J].Science Technology and Engineering,2019,19(36):73-80.
[10] 杜梓冰,張立豐,陳敬志,等.有人/無人機協同作戰演示驗證試飛關鍵技術[J].航空兵器,2019,26(04):75-81.
Du Z B,Zhang L F,Chen J Z,et al .Critical technologies of demonstration flight test of cooperative operation for manned/unmanned aerial vehicles[J].Aero Weaponry,2019,26(04):75-81.
Operational application mode and key technology of shipborne unmanned helicopter
SUN Shengzhi1, SUN Xiaoting2, ZHENG Weijuan1, ZHAO Xueyang1, MIAO Zhuang3
(1.China Coast Guard Academy, Ningbo 315801, China;2. Zhejiang DataCenter Data & Technology Co., Ltd., Ningbo 315048, China; 3. Information Research Center for Military Science, Beijing 100142, China)
Abstract: With the development of the ship borne unmanned helicopters, it has been widely used on marine combat, and it has become one of the important topics. From the view of marine combat, this paper described the key combat tasks about anti-submarine, anti-ship and air warning. With the progress of artificial intelligence technology, it researched three operational combat modes of shipborne unmanned helicopter passive mechanization, semi-autonomous informatization and full-autonomous intelligence. It proposed the key technologies of autonomous landing, autonomous formation flight and autonomous mission planning, and it provided important evidence and key support for the development of the unmanned helicopter combat equipment.
