Abstract:Simulation technology provides theoretical methods, verification means, and test platforms for the design, analysis, validation, and evaluation of precision-guided weapons. It has also played a key role in the life cycle of precision-guided weapons. With the further research and application of intelligent technology in target recognition and anti-jamming, environmental perception, autonomous decision-making, and multi-agent coordination for precision-guided armaments, traditional simulation methods struggle to effectively validate and evaluate intelligent simulation objects in future complex combat situations. Integrating "intelligence" into the simulation of precision-guided weapons and researching innovative "intelligent" simulation methods is the trend in developing simulation technology for precision-guided weapons. This paper focused on the intelligent development of precision-guided weapons and requirements for intelligent simulation technology from two dimensions: " simulation for intelligent system " and " intelligence for simulation ", were analysed. The status and challenges of intelligent simulation technology were reviewed. It proposed four key development directions for the future: adversarial intelligent game behaviour modelling, intelligent modelling of complex battle scenarios, simulation platform system and simulation environment construction, and the intelligence level and performance evaluation of precision-guided weapons.
田义, 赖敬业, 王丙乾, 严天虚, 洪泽华, 唐成师, 杨扬, 柴娟芳. 精确制导武器智能仿真技术发展研究[J]. 空天防御, 2025, 8(2): 7-17.
TIAN Yi, LAI Jingye, WANG Bingqian, YAN Tianxu, HONG Zehua, TANG Chengshi, YANG Yang, CHAI Juanfang. Research on the Development of Intelligent Simulation Technology for Precision-Guided Weapons. Air & Space Defense, 2025, 8(2): 7-17.
