摘要
空空导弹一体化仿真系统可为未来雷达型和红外型空空导弹武器系统研究、开发、试验验证提供一体化仿真环境,是未来武器装备仿真试验的发展趋势。首先,从一体化仿真系统的适用对象范围、试验模式和能力覆盖范围三个方面进行需求分析;其次,综述了系统总体架构两个层面的特点,概述了基于仿真系统构建的一体化仿真系统总体架构工作原理及各分系统功能原理;然后,针对包括远距离智能I/O接口技术、一体化仿真系统时钟统一技术在内的一体化仿真关键技术,分析梳理了其基本设计方法。最后,通过构建典型的空空导弹武器一体化仿真系统验证了总体架构可行性以及关键技术实现的正确性。
The airbome missile’s integrated simulation system can be used to provide an integrated simulation environment for research,development,and test validation of future radar and infrared airbome missile weapon systems.Firstly,the requirements of the integrated simulation system are analyzed from three aspects:the applicable object scope,the test mode and the capability coverage scope;Secondly,the characteristics of the two levels of the system architecture are summarized,and the working principle of the integrated simulation system architecture based on the simulation system and the functional principle of each subsystem are summarized;Then,the basic design methods are analyzed to aimed at the key technologies of integrated simulation,including remote intelligent I/O interface technology and integrated simulation system clock unification technology.Finally,the feasibility of the overall architecture and the correctness of the key technologies are verified by constructing a typical airbome missile integrated simulation system.
作者
山清
吴根水
王艳奎
胡渴望
Shan Qing;Wu Genshui;Wang Yankui;Hu Kewang(China Airbome Missile Academy,Luoyang 471000,China)
出处
《战术导弹技术》
北大核心
2021年第5期1-10,共10页
Tactical Missile Technology
关键词
空空导弹
一体化仿真
仿真系统
全弹性能考核
总体架构
airbome missile
integrated simulation
simulation system
whole missile performance evaluation
overall architecture
