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作 者:朱德政 曹猛[1] 郭晓鸿[1] ZHU Dezheng;CAO Meng;GUO Xiaohong(The 28th Research Institute of China Electronics Technology Group Corporation,Nanjing 210007,China)
机构地区:[1]中国电子科技集团公司第二十八研究所,南京210007
出 处:《兵器装备工程学报》2024年第S2期248-253,278,共7页Journal of Ordnance Equipment Engineering
摘 要:构建了一个模拟军事环境的分布式多武器作战平台协同控制模型,该模型由三个作战单元组成,借助与高效指挥信息系统紧密协作,维持一个稳固的空间正三角形部署。在预设任务启动时,系统模拟指挥链路突发中断,各武器平台基于物理规则自动调整其所在位置与速度,确保能迅速适应并灵活应对复杂多变的战场环境。剖析了武器平台机动性能的峰值状态及其伴随的系统内部压力变化,可为军事行动策略的优化与能量管理策略的制定提供参考。Aiming at the problem of collaborative control of multiple weapon platforms,an innovative theoretical model of a distributed weapon combat platform simulating a military environment has been constructed.The model consists of three combat units that work closely together with an efficient command information system to maintain a stable spatial equilateral triangle deployment.When the preset task is initiated,the system simulates the scenario of sudden interruption of the command chain,and each weapon platform automatically adjusts its position and speed based on physical rules to ensure that it can quickly adapt and flexibly respond to the complex and changing battlefield environment.Moreover,this article deeply analyzes the peak state of weapon platform maneuverability and the accompanying internal pressure changes in the system,providing valuable references for optimizing military action strategies and formulating energy management strategies.
关 键 词:分布式 武器作战平台 指挥信息系统 行动控制 链路中断
分 类 号:TP273[自动化与计算机技术—检测技术与自动化装置]
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