华中科技大学学报(自然科学版)2012,Vol.40Issue(z2):79-82,4.
基于二部图任务指派的光纤陀螺多学科快速设计
Multidisciplinary fast design method of the fiber-optic gyroscope using bipartite graph task scheduling
摘要
Abstract
A fast design and simulation verification platform of the aerospace optoelectronics product was proposed to standard the design flow, improve the design efficiency and accumulate the design experience. First, some multidisciplinary commerce softwares were integrated in our platform. The flow regeneration technique was utilized to reduce the design circle of the fiber-optic gyroscope. Each kind of software is redeveloped according to typical application requirements. Second, the bipartite graph methods were employed to build three models of task scheduling to save the design resource, the optimal human resource matching model, the optimal design team establishment model, and the backup-post selection model. Experiment results show that with the application of our proposed platform, the design cost and the development cycle decrease while the design efficiency of our product increases evidently.关键词
设计方法/二部图/优化排程/光纤陀螺/最优匹配/相似性度量Key words
design methodology/ bipartite graph/ optimal scheduling/ fiber-optic gyroscope/ optimal matching/ similarity metric分类
航空航天引用本文复制引用
刘皓挺,王巍,高峰,李锋,吕志祥..基于二部图任务指派的光纤陀螺多学科快速设计[J].华中科技大学学报(自然科学版),2012,40(z2):79-82,4.基金项目
北京航天时代光电公司工艺课题基金资助项目(SDGD2011-36). (SDGD2011-36)
