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作 者:赵欣[1] 李鹏[1] 梁岩里 宋宏江[1] 吴伟[1] 刘鹤[1] 潘顺良 应鹏 刁伟鹤 储海洋 吕伟[1] ZHAO Xin;LI Peng;LIANG Yanli;SONG Hongjiang;WU Wei;LIU He;PAN Shunliang;YING Peng;DIAO Weihe;CHU Haiyang;LYU Wei(Beijing Institute of Spacecraft System Engineering,Beijing 100094,China)
出 处:《航天器工程》2023年第1期144-149,共6页Spacecraft Engineering
摘 要:针对传统航天器测试面向航天器研制新特点体现出的一些不足,文章提出了航天器测试数字化转型的方法。基于虚拟化等技术构建数字化测试平台,实现不同航天器的资源集约化管理和按需分配,解决传统的单航天器独占测试资源的问题;构建“云”、“网”、“端”的异地协同工作环境,解决异地并行研制时数据共享性差,专家资源发挥不够的问题;建立设计、研制、测试、在轨的模型转换标准,解决各阶段模型数据未得到有效的数字化传递的问题。该探索和实践已成功应用于航天重大工程任务,取得良好的应用效果。Aiming at some shortcomings of traditional spacecraft testing for new characteristics of spacecraft development,this paper proposes a method of digital transformation of spacecraft testing.Building digital test platform based on virtualization and other technologies,and realizing intensive management and on-demand allocation of different spacecraft resources solve the problem of traditional single spacecraft monopolizing test resources.Building a“Cloud”,“Network”,“Terminal”collaborative work environment solve the problem of poor data sharing and insufficient use of expert resources in parallel development in different places.Establishing model conversion standards for design,development,testing and in orbit solve the problem that the model data at each stage is not effectively transferred digitally.This exploration and practice has been successfully applied to major engineering missions of spacecraft and has achieved good application results.
分 类 号:V57[航空宇航科学与技术—航空宇航推进理论与工程]
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