A novel adaptive Kriging method: Time-dependent reliability-based robust design optimization and case study

[Display omitted] •A efficient and accurate TRBRDO framework was proposed.•PEGO and AK-MCS were integrated into the framework.•TRBRDO is transformed into a time-independent problem by NSGA-II.•The proposed RBRDO outperformed the existing methods in computing efficiency. The computational efficiency...

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Bibliographic Details
Published in:Computers & industrial engineering 2021-12, Vol.162, p.107692, Article 107692
Main Authors: Jiang, Zhenliang, Wu, Jiawei, Huang, Fu, Lv, Yifan, Wan, Liangqi
Format: Article
Language:English
Subjects:
Adaptive Kriging
Reliability analysis
Robust design
Time-dependent
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Summary:[Display omitted] •A efficient and accurate TRBRDO framework was proposed.•PEGO and AK-MCS were integrated into the framework.•TRBRDO is transformed into a time-independent problem by NSGA-II.•The proposed RBRDO outperformed the existing methods in computing efficiency. The computational efficiency and accuracy of the time-dependent reliability-based robust design optimization (TRBRDO) directly rely on the capability to handle the time-dependent reliability analysis (TRA). Some TRA methods use ordinary efficient global optimization (EGO) to identify the extreme samples, and the Kriging model is utilized to approximate the implicit extreme value functions. However, the significant limitation of these methods lies in the unavailability for the parallelized reliability analysis, resulting from the point-to-point nature, which indicates the computational efficiency can be further improved. To construct a more efficient model for the TRA, this paper proposes an adaptive Kriging method, i.e., integrated parallel efficient global optimization (PEGO) and adaptive Kriging-Monte Carlo simulation (AK-MCS), which transforms the TRBRDO problem into an equivalent time-independent one. The proposed adaptive Kriging method was proven to be superior to existing TRBRDO methods in computing efficiency and accuracy, verified by the performance comparison via three cases, including a limit state function with only a time parameter, a two-dimensional function generator, and an engineering application.
ISSN:0360-8352
1879-0550
DOI:10.1016/j.cie.2021.107692