计算机科学
系统工程
验证器
接头(建筑物)
虚拟机
领域(数学分析)
无人机
模拟
工程类
操作系统
数学分析
遗传学
万维网
生物
建筑工程
数学
作者
Wenqiang Yin,Ran An,Zhengyan He,Wei Zhang
标识
DOI:10.1109/iditr57726.2023.10145939
摘要
As joint warfare and network-centric warfare become the main styles of modern warfare, a single test environment and test equipment can no longer meet the verification requirements of cross-platform joint tests, and the construction of an LVC (Live-Virtual-Constructive) cross-domain simulation test platform through testing, modeling and simulation technology is a necessary means to realize joint warfare tests. This paper addresses the problems of high cost of real environment construction, low test efficiency and high test flight risk when conducting manned and unmanned multi-aircraft collaborative tests, based on the virtual-real hybrid technology, a set of virtual-real hybrid integrated verification and simulation environment is built by integrating the real-assembly validator, simulation simulator and virtual digital system together, and the manned and unmanned multi-aircraft collaborative mission projection technology research is carried out based on typical collaborative scenarios. This method can provide technical support for the capability verification of equipment in real complex environments.
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