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    Bayesian machine learning-based method for prediction of slope failure time

    New search for: Jie Zhang
    New search for: Zipeng Wang
    New search for: Jinzheng Hu
    New search for: Shihao Xiao
    New search for: Wenyu Shang

    The data-driven phenomenological models based on deformation measurements have been widely utilized to predict the slope failure time (SFT). The observational and model uncertainties could lead the predicted SFT calculated from the phenomenological models to deviate from the actual SFT. Currently, very limited study has been conducted on how to evaluate the effect of such uncertainties on SFT prediction. In this paper, a comprehensive slope failure database was compiled. A Bayesian machine learning (BML)-based method was developed to learn the model and observational uncertainties involved in SFT prediction, through which the probabilistic distribution of the SFT can be obtained. This method was illustrated in detail with an example. Verification studies show that the BML-based method is superior to the traditional inverse velocity method (INVM) and the maximum likelihood method for predicting SFT. The proposed method in this study provides an effective tool for SFT prediction.

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    Bayesian machine learning-based method for prediction of slope failure time

    New search for: Jie Zhang
    New search for: Zipeng Wang
    New search for: Jinzheng Hu
    New search for: Shihao Xiao
    New search for: Wenyu Shang

    The data-driven phenomenological models based on deformation measurements have been widely utilized to predict the slope failure time (SFT). The observational and model uncertainties could lead the predicted SFT calculated from the phenomenological models to deviate from the actual SFT. Currently, very limited study has been conducted on how to evaluate the effect of such uncertainties on SFT prediction. In this paper, a comprehensive slope failure database was compiled. A Bayesian machine learning (BML)-based method was developed to learn the model and observational uncertainties involved in SFT prediction, through which the probabilistic distribution of the SFT can be obtained. This method was illustrated in detail with an example. Verification studies show that the BML-based method is superior to the traditional inverse velocity method (INVM) and the maximum likelihood method for predicting SFT. The proposed method in this study provides an effective tool for SFT prediction.

    Access

    Download

    Bayesian machine learning-based method for prediction of slope failure time

    New search for: Jie Zhang
    New search for: Zipeng Wang
    New search for: Jinzheng Hu
    New search for: Shihao Xiao
    New search for: Wenyu Shang

    The data-driven phenomenological models based on deformation measurements have been widely utilized to predict the slope failure time (SFT). The observational and model uncertainties could lead the predicted SFT calculated from the phenomenological models to deviate from the actual SFT. Currently, very limited study has been conducted on how to evaluate the effect of such uncertainties on SFT prediction. In this paper, a comprehensive slope failure database was compiled. A Bayesian machine learning (BML)-based method was developed to learn the model and observational uncertainties involved in SFT prediction, through which the probabilistic distribution of the SFT can be obtained. This method was illustrated in detail with an example. Verification studies show that the BML-based method is superior to the traditional inverse velocity method (INVM) and the maximum likelihood method for predicting SFT. The proposed method in this study provides an effective tool for SFT prediction.

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    Title:

    Bayesian machine learning-based method for prediction of slope failure time

    Contributors:

    Jie Zhang (author) / Zipeng Wang (author) / Jinzheng Hu (author) / Shihao Xiao (author) / Wenyu Shang (author)

    Published in:

    Journal of Rock Mechanics and Geotechnical Engineering, Vol 14, Iss 4, Pp 1188-1199 (2022)

    Publication date:

    2022

    ISSN:

    1674-7755

    DOI:

    https://doi.org/10.1016/j.jrmge.2021.09.010

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Slope failure time (SFT) , Bayesian machine learning (BML) , Inverse velocity method (INVM) , Engineering geology. Rock mechanics. Soil mechanics. Underground construction , TA703-712

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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