整合序列后向选择 (SBS) 和 CatBoost 技术,绘制流域尺度的雪崩易感性地图

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-29 DOI:10.3390/ijgi13090312
Sinem Cetinkaya, Sultan Kocaman
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引用次数: 0

摘要

雪崩易发性(AS)绘图是预测和减轻山区雪崩风险的关键一步。雪崩易感性建模中使用的条件因素多种多样,最佳因素集取决于该地区的环境和地质特征。在数据驱动的机器学习(ML)方法中使用一组次优的输入特征,会导致处理高维数据、过拟合和模型泛化能力降低等挑战。本研究实施了一个稳健的框架,其中包括序列后向选择(SBS)算法和基于决策树的 ML 模型 CatBoost,用于自动选择 AS 映射的预测变量。在瑞士阿尔卑斯山三个不同的集水区进行调查时,使用了以前从卫星图像中获得的大型雪崩期综合清单。综合 SBS-CatBoost 方法在三个集水区取得了 94% 至 97% 的极高分类准确率。此外,还采用了夏普利加法解释(SHAP)方法来分析每个特征对雪崩发生的贡献。所提出的方法揭示了将先进的特征选择算法与用于雪崩评估的 ML 技术相结合的益处。我们的目标是通过评估每个特征在模型学习中的影响,为雪崩危害知识做出贡献。
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Integrating Sequential Backward Selection (SBS) and CatBoost for Snow Avalanche Susceptibility Mapping at Catchment Scale
Snow avalanche susceptibility (AS) mapping is a crucial step in predicting and mitigating avalanche risks in mountainous regions. The conditioning factors used in AS modeling are diverse, and the optimal set of factors depends on the environmental and geological characteristics of the region. Using a sub-optimal set of input features with a data-driven machine learning (ML) method can lead to challenges like dealing with high-dimensional data, overfitting, and reduced model generalization. This study implemented a robust framework involving the Sequential Backward Selection (SBS) algorithm and a decision-tree based ML model, CatBoost, for the automatic selection of predictive variables for AS mapping. A comprehensive inventory of a large avalanche period, previously derived from satellite images, was used for the investigations in three distinct catchment areas in the Swiss Alps. The integrated SBS-CatBoost approach achieved very high classification accuracies between 94% and 97% for the three catchments. In addition, the Shapley additive explanations (SHAP) method was employed to analyze the contributions of each feature to avalanche occurrences. The proposed methodology revealed the benefits of integrating advanced feature selection algorithms with ML techniques for AS assessment. We aimed to contribute to avalanche hazard knowledge by assessing the impact of each feature in model learning.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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