光电探测系统多学科分布式仿真平台设计

Design of Multidisciplinary Distributed Simulation Platform For Photoelectric Detection System

针对光电探测产品系统级验证和评估的需要,设计开发了一个多学科分布式仿真平台。通过搭建仿真运行支撑环境、紧密集成光电探测涉及的各学科工具软件,构建了包括目标大气系统、光学系统、探测器系统、信号处理系统、控制系统以及监测评估系统的虚拟试验可配置运行环境。重点介绍了运行支撑环境的设计,并给出了各学科工具软件的集成方法,最后讨论了仿真平台下虚拟MRTD试验系统和虚拟外场试验系统的搭建。

To meet the requirements of verification and evaluation of the photoelectric detection products at sys- tem-level, a multidisciplinary distributed simulation platform is designed and developed. The platform which in- cludes target ＆ environment subsystem, optics subsystem, detector subsystem, signal processing subsystem, ser- vo subsystem and monitor ＆ evaluation subsystem, is built by constructing the runtime infrastructure and in- tegrating the commercial software related to photoelectric detection. The design of the runtime infrastructure is analyzed in detail firstly, then the methods to integrate commercial software related to photoelectric detection are proposed, and finally the virtual minimum resolvable temperature difference（MRTD） test system and the virtual field test system are developed under this simulation platform.