摘要
构建反导体系试训一体化环境,是促进反导体系战斗力快速形成的有效手段,针对目前反导体系试训一体化环境无统一开发集成方法的现状,在系统分析该环境对开发集成方法能力需求的基础上,提出基于一体化非实时仿真支撑环境(Integrated Non-Real-time Simulation Environment,INRSE)的数字仿真系统和基于一体化实时仿真支撑环境(Integrated Real-time Simulation Environment,IRSE)的LVC仿真系统(Live,Virtual and Constructive simulation,LVC)的开发集成方法,并重点对方法中的适配器技术进行了研究,实现了非实时的集中、分布、并行仿真系统和实时的实物、半实物、数字仿真系统的一体化开发集成,基于该方法开发的原型系统已初步得到了应用。
Building the BMDS integrated test and training environment is an effective means to quickly generate the combat effectiveness of BMDS. Aiming at the current situation that there was no unified development and integration method of the BMDS integrated test and training environment, based on systematic analysis to the capability requirements of the method, the development and integration method of pure digital simulation based on Integrated Non-Real-time Simulation Environment(INRS) and LVC simulation based on Integrated Real-time Simulation Environment(IRSE) was put forward, and the technologies of adaptor was focused on. The integrated development and integration not only of non-real-time stand-alone, parallel and distributed simulation, but also of live, virtual, and constructive simulation were realized by these methods. The prototype system that develops using this method has been preliminary application.
出处
《系统仿真学报》
CAS
CSCD
北大核心
2016年第4期898-906,共9页
Journal of System Simulation
关键词
反导体系
试训一体化环境
开发集成方法
LVC仿真
ballistic missile defense system-of-systems
integrated test and training environment
development and integration method
LVC simulation
