摘要
考虑高性能电工材料的应用特性在建模过程中所建模型的线性度、维数、工作状态、耦合方法和数值方法等方面因素,以系统功能为基础首次运用模块划分的原则,采用自顶向下的方法,对新型高性能电工材料应用特性建模进行了系统设计。为了使各模块相对独立性强、数据依赖性尽量小和数据冗余较小,利用工程模糊综合评判方法对系统的功能进行了合并,证明了系统模块划分的科学性和正确性,为新型高性能电工材料应用特性的标准化建模奠定了重要基础。
According to the concept of the modular design, the principle of module partition, and top-down method, modeling of new high performance materials applied to electrical engineering was systematically designed. In the procedure, the system function and various factors were considered comprehensively, which include the linearity, dimension, working state, coupling methods, numerical methods, etc. In order to achieve the strongly relative independence of the module and the less data dependency and redundancy, the engineering fuzzy judgment method was used in module mergence. The result shows that the system module partition is scientific and accurate. This lays an important foundation for standard modeling for new high performance materials applied to electrical engineering.
出处
《电工技术学报》
EI
CSCD
北大核心
2008年第10期1-5,共5页
Transactions of China Electrotechnical Society
基金
河北省百名优秀人才支持计划资助项目。
关键词
新型高性能电工材料
应用特性
建模
模块化
New high performance materials applied to electrical engineering, application characters, modeling, modularity