A recursive dimension-reduction method for high-dimensional reliability analysis with rare failure event

A new dimension-reduction method (DRM), called ’subset active subspace method (SASM)’, is proposed to compute small failure probabilities encountered in high-dimensional reliability analysis of engineering systems. The basic idea is to introduce a recursive procedure to improve the efficiency, accur...

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Bibliographic Details
Published in:Reliability engineering & system safety 2021-09, Vol.213, p.107710, Article 107710
Main Authors: Jiang, Zhong-ming, Feng, De-Cheng, Zhou, Hao, Tao, Wei-Feng
Format: Article
Language:English
Subjects:
Accuracy
Computer applications
Dimension reduction
Dimensional analysis
Failure analysis
High-dimensional reliability
Rare failure event
Reduction
Reliability analysis
Reliability engineering
Subset active subspace
Subspace methods
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Summary:A new dimension-reduction method (DRM), called ’subset active subspace method (SASM)’, is proposed to compute small failure probabilities encountered in high-dimensional reliability analysis of engineering systems. The basic idea is to introduce a recursive procedure to improve the efficiency, accuracy and applicability of the conventional active subspace method (ASM). For the reliability problems with a rare event, SASM firstly transfers the original high-dimensional reliability problem into a low-dimensional reliability problem in a proper failure domain. Then, a simplified low-dimensional surrogate model is built in order to improve the result of reliability analysis by increasing significantly the samples with a minimum additional computational effort. The proposed method is verified by three nonlinear numerical examples, including theoretical and industrial, explicit and implicit performance functions. Besides, some other existing methods are also investigated and compared to the proposed method. It is found that the proposed method can keep the trade-off between accuracy and efficiency. •A recursive reduction procedure is introduced for reliability problem with rare event.•Active subspace method is employed to solve high-dimensional problem.•Kriging method is used to fit the data into a robust low-dimensional surrogate model.
ISSN:0951-8320
1879-0836
DOI:10.1016/j.ress.2021.107710