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拒止环境下基于"忠诚僚机"的护航策略
引用本文:田磊,赵启伦,董希旺,李清东,吕金虎,任章. 拒止环境下基于"忠诚僚机"的护航策略[J]. 北京航空航天大学学报, 2021, 47(5): 1058-1067. DOI: 10.13700/j.bh.1001-5965.2020.0090
作者姓名:田磊  赵启伦  董希旺  李清东  吕金虎  任章
作者单位:1.北京航空航天大学 自动化科学与电气工程学院, 北京 100083
基金项目:国家自然科学基金61922008国家自然科学基金61973013国家自然科学基金61873011国家自然科学基金61803014国防创新特区项目18-163-00-TS-001-001-34北京市自然科学基金4182035航空科学基金20170151001
摘    要:护航策略一直是各军事大国的重点研究内容之一,拒止环境具有强电磁干扰、强对抗博弈等特点,进而对护航策略提出了更高的要求。提出了一种基于分布式时变编队跟踪控制方法的护航策略,该策略中由高成本长机探测到敌方来袭导弹,在进行规避的同时,释放多个低成本僚机担任“忠诚僚机”。采用时变编队跟踪的控制方法,使僚机始终处于长机与敌方来袭导弹的视线轴上,必要时牺牲僚机以保全长机。针对敌方来袭导弹的方位角是全局信息,设计了分布式观测器对其进行估计。在拒止环境下,复杂电磁干扰带来通信时断时续,导致长机与僚机及僚机与僚机之间的通信拓扑存在切换。为应对电磁干扰对通信拓扑的破坏,提高抗电磁干扰能力,考虑僚机外部扰动和长机规避机动动作同时存在的情况,基于观测器理论、自适应控制理论和滑模控制理论,构造了具体通信拓扑切换机制的分布式控制协议,并利用Lyapunov理论证明了僚机采用该协议能够实现拒止环境下基于“忠诚僚机”的护航策略。通过仿真模拟导弹来袭场景,验证了所提策略的有效性。 

关 键 词:护航策略   拒止环境   分布式观测器   滑模控制   自适应控制
收稿时间:2020-03-12

Escort strategy based on loyal wingman in denial environment
TIAN Lei,ZHAO Qilun,DONG Xiwang,LI Qingdong,LYU Jinhu,REN Zhang. Escort strategy based on loyal wingman in denial environment[J]. Journal of Beijing University of Aeronautics and Astronautics, 2021, 47(5): 1058-1067. DOI: 10.13700/j.bh.1001-5965.2020.0090
Authors:TIAN Lei  ZHAO Qilun  DONG Xiwang  LI Qingdong  LYU Jinhu  REN Zhang
Affiliation:1.School of Automation Science and Electrical Engineering, Beihang University, Beijing 100083, China2.Science and Technology on Aircraft Control Laboratory, Beihang University, Beijing 1000833.Beijing Institute of Electronic System Engineering, Beijing 1008544.Advanced Innovation Center for Big Data and Brain Computing, Beihang University, Beijing 100083, China
Abstract:Escort strategy has always been one of the important studies of the major military powers and the denial environment with characteristics of strong electromagnetic interference and strong confrontation game puts forward higher requirements for escort strategy. This paper presents an escort strategy based on the distributed time-varying formation tracking control method. In this strategy, the high-cost lead aircraft detects the enemy missiles and releases several low-cost wingmen as loyal wingmen while moving for evasion. The time-varying formation tracking control methods are adopted to keep the wingmen on the line of sight axis associated with the lead aircraft and the enemy missiles, and then if necessary, the wingmen are sacrificed to protect the lead aircraft. As a result of the fact that the azimuth angles of enemy missiles are global information, the distributed observers are designed to estimate them. In the denial environment, the complex electromagnetic interference leads to the intermittent communication so that the communication topologies of systems composed by lead aircraft and wingmen are switched frequently. In order to deal with the damage of the communication topology caused by the electromagnetic interference and improve the ability of electromagnetic interference resistance, based on the observer theory, adaptive control theory and sliding mode control theory, a distributed control protocol with switching topologies is constructed under external disturbance of wingmen and the lead aircraft evasion. It is proven that the wingmen under the protocol can realize the escort strategy based on loyal wingman by Lyapunov theory in the denial environment. Finally, the effectiveness of the escort strategy is verified by simulating the attack scenario of the missiles. 
Keywords:
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