SHAP-PDP hybrid interpretation of decision-making mechanism of machine learning-based landslide susceptibility mapping: A case study at Wushan District, China

IF 3.7 3区地球科学 Q2 ENVIRONMENTAL SCIENCES Egyptian Journal of Remote Sensing and Space Sciences Pub Date : 2024-06-14 DOI:10.1016/j.ejrs.2024.06.005

Deliang Sun , Yuekai Ding , Haijia Wen , Fengtai Zhang , Junyi Zhang , Qingyu Gu , Jialan Zhang

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Abstract

For landslide prevention and control, it is essential to establish a landslide susceptibility prediction framework that can explain the model’s decision-making process. Wushan County, Chongqing was selected as the study area, and seventeen landslide conditioning factors were initially chosen for this investigation. GeoDetector was used to remove noise factors and reduce the latitude of the data. The research investigates the use of three machine learning methods for assessing landslide susceptibility: SVM, RF, and XGBoost, and finally explains the decision mechanism of the model by SHAP-PDP. The results indicate that XGBoost has better evaluation results than RF and SVM. And XGBoost uncertainty is lower. The integrated interpretation framework based on SHAP-PDP can evaluate and interpret landslide susceptibility models both globally and locally, which is of great practical significance for the application of machine learning in landslide prediction.

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基于机器学习的滑坡易感性绘图决策机制的 SHAP-PDP 混合解释：中国巫山县案例研究

为了预防和控制滑坡，必须建立一个能够解释模型决策过程的滑坡易感性预测框架。本次研究选取重庆市巫山县作为研究区域，初步选择了 17 个滑坡条件因子进行研究。使用 GeoDetector 去除噪声因子并降低数据纬度。研究调查了三种机器学习方法在评估滑坡易发性中的应用：SVM、RF 和 XGBoost，最后通过 SHAP-PDP 解释了模型的决策机制。结果表明，XGBoost 的评估结果优于 RF 和 SVM。而且 XGBoost 的不确定性更低。基于 SHAP-PDP 的综合解释框架可以对滑坡易感性模型进行全局和局部的评估和解释，对机器学习在滑坡预测中的应用具有重要的现实意义。

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来源期刊

Egyptian Journal of Remote Sensing and Space Sciences Multiple-

CiteScore

8.10

自引率

0.00%

发文量

审稿时长

48 weeks

期刊介绍： The Egyptian Journal of Remote Sensing and Space Sciences (EJRS) encompasses a comprehensive range of topics within Remote Sensing, Geographic Information Systems (GIS), planetary geology, and space technology development, including theories, applications, and modeling. EJRS aims to disseminate high-quality, peer-reviewed research focusing on the advancement of remote sensing and GIS technologies and their practical applications for effective planning, sustainable development, and environmental resource conservation. The journal particularly welcomes innovative papers with broad scientific appeal.