Comparison of Hybrid Models Based on the Infinite Slope Stability Analysis and Different Data-Driven Approaches for Regional Landslide Susceptibility Mapping

Xin Wei; Hai Li; Paolo Gardoni; Lulu Zhang

doi:10.1061/9780784484975.019

Comparison of Hybrid Models Based on the Infinite Slope Stability Analysis and Different Data-Driven Approaches for Regional Landslide Susceptibility Mapping

Xin Wei, Hai Li, Paolo Gardoni, Lulu Zhang

Research output: Contribution to journal › Conference article › peer-review

Abstract

Landslide susceptibility mapping (LSM) predicts the possibility of future landslides and is critical for risk assessment, resource allocation, and land-use planning. To promote the prediction accuracy, generalization ability, practicability, and interpretability of LSM models, this paper makes the following novel contributions: (1) Two hybrid models based on the infinite slope stability model (ISSM) and different data-driven approaches for regional LSM are proposed. The adopted data-driven approaches are the logistic regression (LR) model and convolutional neural network (CNN); and (2) The LR model is compared with the LR-ISSM hybrid model to verify the important role of the physical module. The results reveal the necessity of considering the spatial correlation among grids/pixels for grid-based LSM models. While the CNN-ISSM hybrid model is slightly more accurate, the LR-ISSM hybrid model has better interpretability and produces promising prediction accuracy and generalization ability.

Original language	English (US)
Pages (from-to)	171-180
Number of pages	10
Journal	Geotechnical Special Publication
Volume	2023-July
Issue number	GSP 345
DOIs	https://doi.org/10.1061/9780784484975.019
State	Published - 2023
Event	Geo-Risk Conference 2023: Innovation in Data and Analysis Methods - Arlington, United States Duration: Jul 23 2023 → Jul 26 2023

ASJC Scopus subject areas

Civil and Structural Engineering
Architecture
Building and Construction
Geotechnical Engineering and Engineering Geology

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10.1061/9780784484975.019

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title = "Comparison of Hybrid Models Based on the Infinite Slope Stability Analysis and Different Data-Driven Approaches for Regional Landslide Susceptibility Mapping",

abstract = "Landslide susceptibility mapping (LSM) predicts the possibility of future landslides and is critical for risk assessment, resource allocation, and land-use planning. To promote the prediction accuracy, generalization ability, practicability, and interpretability of LSM models, this paper makes the following novel contributions: (1) Two hybrid models based on the infinite slope stability model (ISSM) and different data-driven approaches for regional LSM are proposed. The adopted data-driven approaches are the logistic regression (LR) model and convolutional neural network (CNN); and (2) The LR model is compared with the LR-ISSM hybrid model to verify the important role of the physical module. The results reveal the necessity of considering the spatial correlation among grids/pixels for grid-based LSM models. While the CNN-ISSM hybrid model is slightly more accurate, the LR-ISSM hybrid model has better interpretability and produces promising prediction accuracy and generalization ability.",

author = "Xin Wei and Hai Li and Paolo Gardoni and Lulu Zhang",

note = "The work was supported by the Natural Science Foundation of China (Project Nos. 52025094, 51979158). The authors are grateful for the support from Shanghai Municipal Education Commission (Project No. 2021-01-07-00-02-E00089). The authors would also like to thank suggestions at Dr. Neetesh Sharma at Stanford University.; Geo-Risk Conference 2023: Innovation in Data and Analysis Methods ; Conference date: 23-07-2023 Through 26-07-2023",

year = "2023",

doi = "10.1061/9780784484975.019",

language = "English (US)",

volume = "2023-July",

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journal = "Geotechnical Special Publication",

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TY - JOUR

T1 - Comparison of Hybrid Models Based on the Infinite Slope Stability Analysis and Different Data-Driven Approaches for Regional Landslide Susceptibility Mapping

AU - Wei, Xin

AU - Li, Hai

AU - Gardoni, Paolo

AU - Zhang, Lulu

N1 - The work was supported by the Natural Science Foundation of China (Project Nos. 52025094, 51979158). The authors are grateful for the support from Shanghai Municipal Education Commission (Project No. 2021-01-07-00-02-E00089). The authors would also like to thank suggestions at Dr. Neetesh Sharma at Stanford University.

PY - 2023

Y1 - 2023

N2 - Landslide susceptibility mapping (LSM) predicts the possibility of future landslides and is critical for risk assessment, resource allocation, and land-use planning. To promote the prediction accuracy, generalization ability, practicability, and interpretability of LSM models, this paper makes the following novel contributions: (1) Two hybrid models based on the infinite slope stability model (ISSM) and different data-driven approaches for regional LSM are proposed. The adopted data-driven approaches are the logistic regression (LR) model and convolutional neural network (CNN); and (2) The LR model is compared with the LR-ISSM hybrid model to verify the important role of the physical module. The results reveal the necessity of considering the spatial correlation among grids/pixels for grid-based LSM models. While the CNN-ISSM hybrid model is slightly more accurate, the LR-ISSM hybrid model has better interpretability and produces promising prediction accuracy and generalization ability.

AB - Landslide susceptibility mapping (LSM) predicts the possibility of future landslides and is critical for risk assessment, resource allocation, and land-use planning. To promote the prediction accuracy, generalization ability, practicability, and interpretability of LSM models, this paper makes the following novel contributions: (1) Two hybrid models based on the infinite slope stability model (ISSM) and different data-driven approaches for regional LSM are proposed. The adopted data-driven approaches are the logistic regression (LR) model and convolutional neural network (CNN); and (2) The LR model is compared with the LR-ISSM hybrid model to verify the important role of the physical module. The results reveal the necessity of considering the spatial correlation among grids/pixels for grid-based LSM models. While the CNN-ISSM hybrid model is slightly more accurate, the LR-ISSM hybrid model has better interpretability and produces promising prediction accuracy and generalization ability.

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Comparison of Hybrid Models Based on the Infinite Slope Stability Analysis and Different Data-Driven Approaches for Regional Landslide Susceptibility Mapping

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