体系对抗仿真面临的挑战与关键技术研究
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摘要
未来战争模式逐步向智能化、多域化方向发展,装备体系对抗不断加剧,并呈现出智能化、体系化、无人化、平台化、战术化的特点,对传统体系对抗仿真技术提出巨大挑战,主要包括体系架构无法适应动态变化、模型体系无法快速形成仿真能力、建模技术无法跟上智能作战步伐、仿真平台无法适应多分辨率应用需求。基于体系对抗仿真新需求,开展了最新仿真技术研究,从面向服务技术、模型框架技术、认知域决策建模技术、实时LVC技术四个方面探讨了若干新型仿真技术在体系对抗仿真中的应用。研究结果表明,上述关键技术可以解决体系对抗仿真的新问题。
In the future, the war mode will gradually develop towards intellectualization and multi domain. The system of system combat of weapons is intensifying. It put forwards a great challenge to the traditional system-to-system combat simulation technology. Basically, the system architecture can't adapt to dynamic change, and the model system can't form simulation capability quickly, and the modeling technology cannot keep pace with the intelligent warfare, and the simulation platform can't meet the demands of multi-resolution application. Based on the new requirement of system-of-system combat simulation, the new simulation technology is researched. Based on service-oriented technology, model framework technology, cognitive domain decision-making modeling technology, real-time LVC technology, the application of several new simulation technologies in system-of-system combat simulation is discussed. The research results show that the above key technology can solve the new problems of system-of-system combat simulation.
In the future, the war mode will gradually develop towards intellectualization and multi domain. The system of system combat of weapons is intensifying. It put forwards a great challenge to the traditional system-to-system combat simulation technology. Basically, the system architecture can't adapt to dynamic change, and the model system can't form simulation capability quickly, and the modeling technology cannot keep pace with the intelligent warfare, and the simulation platform can't meet the demands of multi-resolution application. Based on the new requirement of system-of-system combat simulation, the new simulation technology is researched. Based on service-oriented technology, model framework technology, cognitive domain decision-making modeling technology, real-time LVC technology, the application of several new simulation technologies in system-of-system combat simulation is discussed. The research results show that the above key technology can solve the new problems of system-of-system combat simulation.
引文
[1] 张铧予.多域战背景下美军新型战术弹道导弹发展研究[J].战术导弹技术,2018.
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[6] 蔡继红,卿杜政,谢宝娣.支持LVC互操作的分布式联合仿真技术研究[J].系统仿真学报,2015,27(1):93-97.
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[2] 任雅广.空海一体战的演变[J].航空电子技术,2016,47(2)1-4;10.
[3] 孙宗祥,唐志共陈喜兰等.X-37B的发展现状及空气动力技术综述[J].实验流体力学,2015,29(1)e1-14,24.
[4] 程文迪,楚威.基于网络中心化与面向服务的作战仿真软件架构[J].系统仿真学报,2016,28(77-82).
[5] 别晓峰,李为民,张雅舰,等.事件驱动的面向服务作战仿真集成平台架构[J].空军工程大学学报,2013,4(14):38-41.
[6] 蔡继红,卿杜政,谢宝娣.支持LVC互操作的分布式联合仿真技术研究[J].系统仿真学报,2015,27(1):93-97.
[7] 张丽晔,廖建,蔡斐华,等.试验训练使能体系结构(TENA)的研究与应用[J].计算机测量与控制,2015,23(10):3461-3464.