基于区间不确定性的多学科可靠性设计  被引量:2

Optimization of Multidisciplinary Reliability Design Based on Interval Uncertainty

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作  者:方鹏亚 常新龙[1] 胡宽[1] 张晓军[1] 

机构地区:[1]第二炮兵工程大学,西安710025

出  处:《上海交通大学学报》2014年第10期1451-1456,共6页Journal of Shanghai Jiaotong University

基  金:陕西省自然科学基金(2011JQ6007)资助项目

摘  要:针对随机可靠性设计和多学科设计直接结合中存在的随机可靠性无法解决不确定性信息量较少及直接结合的嵌套结构计算效率较低的问题,采用区间描述有限信息的不确定性,以非概率可靠性指标衡量多学科系统的可靠性,建立了基于区间不确定性的多学科可靠性设计模型.同时,为了提高计算效率,采用性能测量法来减少可靠性分析的计算量,并引入序列优化与可靠性评估方法将三层嵌套的多学科可靠性设计结构解耦为顺序执行的确定性多学科设计优化和多学科可靠性分析过程,降低了计算复杂性.通过一个算例验证了该方法的可行性和有效性.结果表明,相比多学科可行法,单学科可行法的计算效率较高.Aimed at the problem resulted from the direct integration of random reliability-based design and multidisciplinary design optimization that the random reliability method cannot solve the problem with lim- ited uncertainty information and the nested structure of direct integration has low computational efficiency, the model of interval uncertainty based muhidisciplinary reliability design was presented, in which the un- certainty with limited information was described with interval variable and the reliability of multidisciplinary system was measured with non-probabilistic reliability index. Moreover, to improve the efficiency, the performance measurement approach was applied to reduce the computational cost of the reliability anal ysis and the sequential optimization and reliability assessment method were applied to simplify the computation process through decoupling the 3-layer nested structure into sequential deterministic multidisciplil,ary design optimization and multidisciplinary reliability the feasibility and es ffectiveness of the method. The result sciplinary design optimization(MDO) ; analysis. A numerical exampl s show that IDF has higher elf e was mlency used to test than MDF.

关 键 词:多学科设计优化 区间不确定性 性能测量法 序列优化与可靠性评估 

分 类 号:TP301.6[自动化与计算机技术—计算机系统结构]

 

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