A novel non-probabilistic reliability-based design optimization method using bilevel accelerated microbial genetic algorithm

In this study, an efficient algorithm for non-probabilistic reliability-based design optimization (NRBDO) is presented. To improve the convergence rate, the sequential Kriging model is applied to the inner-layer optimization of the double-nested optimization model, maximizing the utility of each sam...

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Published in	Structural and multidisciplinary optimization Vol. 67; no. 6; p. 105
Main Authors	Wu, Fenghe, Jiang, Zhanpeng, Hou, Jianchang, Fan, Junwei, Lian, Hui, Liu, Zijian
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.06.2024 Springer Nature B.V
Subjects	Adaptive algorithms Boring machines Boring mills Computational Mathematics and Numerical Analysis Criteria Design optimization Efficiency Engineering Engineering Design Evolutionary algorithms Evolutionary computation Genetic algorithms Microorganisms Milling (machining) Optimization models Probability theory Reliability Sampling Theoretical and Applied Mechanics Non-probabilistic reliability-based design optimization Bilevel accelerated microbial genetic algorithm Kriging model Engineering application
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ISSN	1615-147X 1615-1488
DOI	10.1007/s00158-024-03817-8

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Abstract	In this study, an efficient algorithm for non-probabilistic reliability-based design optimization (NRBDO) is presented. To improve the convergence rate, the sequential Kriging model is applied to the inner-layer optimization of the double-nested optimization model, maximizing the utility of each sampling point. During the global exploration stage, the algorithm employs an expected improvement criterion and a parallel sampling strategy. In the local exploration stage, a minimum surrogate prediction criterion is utilized to identify new sampling points, resulting in enhanced efficiency and accuracy of Kriging surrogate model. The optimization of each sampling criterion is performed using the differential evolution algorithm. Adaptive switching between global and local exploration is achieved by considering the relationship between new and known sample points, ensuring the identification of the optimal solution. To further enhance optimization efficiency, an Aitken Δ 2 acceleration strategy is applied to improve the current population, while a heuristic pattern-based local search method is employed to enhance the subpopulation, developing of a bilevel accelerated microbial genetic algorithm to solve optimal solution. The efficiency of the proposed method is demonstrated through two numerical cases and an engineering application involving the ram of the TK6932 heavy-duty floor-type milling and boring machine.
AbstractList	In this study, an efficient algorithm for non-probabilistic reliability-based design optimization (NRBDO) is presented. To improve the convergence rate, the sequential Kriging model is applied to the inner-layer optimization of the double-nested optimization model, maximizing the utility of each sampling point. During the global exploration stage, the algorithm employs an expected improvement criterion and a parallel sampling strategy. In the local exploration stage, a minimum surrogate prediction criterion is utilized to identify new sampling points, resulting in enhanced efficiency and accuracy of Kriging surrogate model. The optimization of each sampling criterion is performed using the differential evolution algorithm. Adaptive switching between global and local exploration is achieved by considering the relationship between new and known sample points, ensuring the identification of the optimal solution. To further enhance optimization efficiency, an Aitken Δ2 acceleration strategy is applied to improve the current population, while a heuristic pattern-based local search method is employed to enhance the subpopulation, developing of a bilevel accelerated microbial genetic algorithm to solve optimal solution. The efficiency of the proposed method is demonstrated through two numerical cases and an engineering application involving the ram of the TK6932 heavy-duty floor-type milling and boring machine. In this study, an efficient algorithm for non-probabilistic reliability-based design optimization (NRBDO) is presented. To improve the convergence rate, the sequential Kriging model is applied to the inner-layer optimization of the double-nested optimization model, maximizing the utility of each sampling point. During the global exploration stage, the algorithm employs an expected improvement criterion and a parallel sampling strategy. In the local exploration stage, a minimum surrogate prediction criterion is utilized to identify new sampling points, resulting in enhanced efficiency and accuracy of Kriging surrogate model. The optimization of each sampling criterion is performed using the differential evolution algorithm. Adaptive switching between global and local exploration is achieved by considering the relationship between new and known sample points, ensuring the identification of the optimal solution. To further enhance optimization efficiency, an Aitken Δ 2 acceleration strategy is applied to improve the current population, while a heuristic pattern-based local search method is employed to enhance the subpopulation, developing of a bilevel accelerated microbial genetic algorithm to solve optimal solution. The efficiency of the proposed method is demonstrated through two numerical cases and an engineering application involving the ram of the TK6932 heavy-duty floor-type milling and boring machine.
ArticleNumber	105
Author	Hou, Jianchang Jiang, Zhanpeng Wu, Fenghe Liu, Zijian Fan, Junwei Lian, Hui
Author_xml	– sequence: 1 givenname: Fenghe surname: Wu fullname: Wu, Fenghe organization: Department of Mechanical Engineering, Yanshan University – sequence: 2 givenname: Zhanpeng surname: Jiang fullname: Jiang, Zhanpeng organization: Department of Mechanical Engineering, Yanshan University – sequence: 3 givenname: Jianchang surname: Hou fullname: Hou, Jianchang organization: Department of Mechanical Engineering, Yanshan University – sequence: 4 givenname: Junwei surname: Fan fullname: Fan, Junwei organization: Department of Mechanical Engineering, Yanshan University – sequence: 5 givenname: Hui surname: Lian fullname: Lian, Hui organization: Department of Mechanical Engineering, Yanshan University – sequence: 6 givenname: Zijian surname: Liu fullname: Liu, Zijian email: liuzijian@ysu.edu.cn organization: Engineering Training Center, Yanshan University
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Snippet	In this study, an efficient algorithm for non-probabilistic reliability-based design optimization (NRBDO) is presented. To improve the convergence rate, the...
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SubjectTerms	Adaptive algorithms Boring machines Boring mills Computational Mathematics and Numerical Analysis Criteria Design optimization Efficiency Engineering Engineering Design Evolutionary algorithms Evolutionary computation Genetic algorithms Microorganisms Milling (machining) Optimization models Probability theory Reliability Sampling Theoretical and Applied Mechanics
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Title	A novel non-probabilistic reliability-based design optimization method using bilevel accelerated microbial genetic algorithm
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