A New Multidisciplinary Design Optimization Method Accounting for Discrete and Continuous Variables under Aleatory and Epistemic Uncertainties

被引:0
|
作者
Hong-Zhong Huang
Xudong Zhang
De-Biao Meng
Yu Liu
Yan-Feng Li
机构
[1] University of Electronic Science and Technology of China,School of Mechatronics Engineering
来源
International Journal of Computational Intelligence Systems | 2012年 / 5卷
关键词
Multidisciplinary design optimization (MDO); Aleatory uncertainty; Epistemic uncertainty; Continuous/discrete variables; Random/Fuzzy/Continuous/Discrete Variables Multidisciplinary Design Optimization (RFCDV-MDO); Sequential Optimization and Reliability Assessment (SORA);
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中图分类号
学科分类号
摘要
Various uncertainties are inevitable in complex engineered systems and must be carefully treated in design activities. Reliability-Based Multidisciplinary Design Optimization (RBMDO) has been receiving increasing attention in the past decades to facilitate designing fully coupled systems but also achieving a desired reliability considering uncertainty. In this paper, a new formulation of multidisciplinary design optimization, namely RFCDV (random/fuzzy/continuous/discrete variables) Multidisciplinary Design Optimization (RFCDV-MDO), is developed within the framework of Sequential Optimization and Reliability Assessment (SORA) to deal with multidisciplinary design problems in which both aleatory and epistemic uncertainties are present. In addition, a hybrid discrete-continuous algorithm is put forth to efficiently solve problems where both discrete and continuous design variables exist. The effectiveness and computational efficiency of the proposed method are demonstrated via a mathematical problem and a pressure vessel design problem.
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页码:93 / 110
页数:17
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