基于阶跃打击理论的无人机任务分配与指定区域执行建模与仿真

Li Mingxuan, Cui Yanru, Zhu Yifan, Wang Weiping, Li Xiaobo, Wang Xinfeng
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引用次数: 0

摘要

2023年以来,局部冲突加剧,局部战争频发。"订单式打击 "一词多次出现在战场上,是现代战争研究的热点之一。命令打击具有规模小、反应快、成本低等特点。它是美军在 "杀伤链"、"镶嵌战 "等理论基础上提出的一种分布式作战模式。本文以无人机对大型目标的渗透打击为研究案例,以 "订单打击 "理论为基础,结合 "星联 "卫星网络侦察和无人机智能控制等技术,构建了一种新型无人机渗透打击作战平台。该作战平台可对指定区域进行持续监控,并对入侵该区域的敌对目标实施有效打击。最后,我们通过多代理仿真对本文提出的方法进行了初步仿真和初步效果评估。
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Modeling and Simulation of UAV Task Assignment and Execution in Designated Area Based on Order Strike Theory
Since 2023, local conflicts have intensified and local wars have occurred frequently. The term “order strike” has appeared on the battlefield many times and is one of the hot spots in the study of modern warfare. Order strike has the characteristics of small scale, fast response, low cost, etc. It is a distributed combat mode proposed by the US military on the basis of theories of “Kill Chain” and “Mosaic Warfare”, etc. This paper takes the UAV penetration and strike against large targets as research case, and builds a new type of UAV penetration and strike combat platform based on the theory of “order strike”, combined with the technologies of “ StarLink “ satellite network reconnaissance and intelligent UAV control. This combat platform can continuously monitor the designated area and effectively strike the hostile targets invading the area. Finally, we conducted a preliminary simulation and initial effectiveness evaluation of the method proposed in this paper through multi-agent simulation.
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