Slope reliability analysis considering spatial variability of parameters based on efficient surrogate model

DENG Zhiping; ZHONG Min; PAN Min; ZHENG Kehong; NIU Jingtai; JIANG Shuihua

doi:10.11779/CJGE20221338

Volume 46 Issue 2

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Chinese Journal of Geotechnical Engineering > 2024 > 46(2): 273-281. > DOI: 10.11779/CJGE20221338

DENG Zhiping, ZHONG Min, PAN Min, ZHENG Kehong, NIU Jingtai, JIANG Shuihua. Slope reliability analysis considering spatial variability of parameters based on efficient surrogate model[J]. Chinese Journal of Geotechnical Engineering, 2024, 46(2): 273-281. DOI: 10.11779/CJGE20221338

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Slope reliability analysis considering spatial variability of parameters based on efficient surrogate model

1.
College of Water Conservancy and Ecological Engineering, Nanchang Institute of Technology, Nanchang 330099, China
2.
School of Infrastructure Engineering, Nanchang University, Nanchang 330031, China

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Received Date: October 30, 2022
Available Online: June 12, 2023

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Abstract

When evaluating the slope reliability with small failure probability considering the spatial variability of parameters, the traditional reliability analysis methods are often time-consuming or difficult to solve. Thus, it is aimed to propose an active learning multiple adaptive regression spline method based on the segmental inverse regression combined with the subset simulation for the slope reliability analysis, and the effects of the sliced inverse regression method on the response values of the surrogate model are explored. Firstly, the random field of shear strength parameters is discretized by the Karhunen-Loève expansion method, and a certain number of training samples are calculated by the strength reduction method to establish the initial surrogate model. Then, the active learning function is used to select a certain amount of optimal sample points to update the surrogate model, and the final surrogate model is coupled with the subset simulation for the slope reliability analysis. Finally, the effectiveness of the proposed method is verified by two typical spatial variation slope examples. It is shown that the proposed method can obtain more accurate results and avoid memory overflow by using fewer training samples for the slope reliability analysis with small failure probability.
- slope stability,
- reliability analysis,
- spatial variability,
- surrogate model,
- active learning

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Slope reliability analysis considering spatial variability of parameters based on efficient surrogate model

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