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- Title
An efficient multi-objective optimization method for uncertain structures based on ellipsoidal convex model.
- Authors
Liu, Xin; Wang, Xinyu; Sun, Lin; Zhou, Zhenhua
- Abstract
Compared with the interval model, the ellipsoidal convex model can describe the correlation of the uncertain parameters through a multidimensional ellipsoid, and whereby excludes extreme combination of uncertain parameters and avoids over-conservative designs. In this paper, we attempt to propose an efficient multi-objective optimization method for uncertain structures based on ellipsoidal convex model. Firstly, each uncertain objective function is transformed into deterministic optimization problem by using nonlinear interval number programming (NINP) method and a possibility degree of interval number is applied to deal with the uncertain constraints. The penalty function method is suggested to transform the uncertain optimization problem into deterministic non-constrained optimization problem. Secondly, the approximation model based on radial basis function (RBF) is applied to improve computational efficiency. For ensuring the accuracy of the approximation models, a local-densifying approximation technique is suggested. Then, the micro multi-objective genetic algorithm (μMOGA) is used to optimize design parameters in the outer loop and the intergeneration projection genetic algorithm (IP-GA) is used to treat uncertain vector in the inner loop. Finally, two numerical examples and an engineering example are investigated to demonstrate the effectiveness of the present method.
- Subjects
ELLIPSOIDS; GENETIC algorithms; RADIAL basis functions
- Publication
Structural & Multidisciplinary Optimization, 2019, Vol 59, Issue 6, p2189
- ISSN
1615-147X
- Publication type
Article
- DOI
10.1007/s00158-018-2185-y