Large dam candidate region identification from multi-source remote sensing images via a random forest and spatial analysis approach

The extraction of large dam candidate regions is critical for broad-scale efforts to rapidly detect large-area dams. The framework proposed in this paper attempts to combine random forest classification models and spatial analysis methods with large dam candidate area extraction methods for large-sc...

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Veröffentlicht in:	International journal of digital earth 2023-12, Vol.16 (2), p.4212-4228
Hauptverfasser:	Jing, Min, Li, Ning, Li, SiCong, Ji, Chen, Cheng, Liang
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Sprache:	eng
Schlagworte:	Analysis Completeness Dam construction Dams Large dam candidate regions Physiographic features random forest Remote sensing Spatial analysis Topography
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creator	Jing, Min Li, Ning Li, SiCong Ji, Chen Cheng, Liang
description	The extraction of large dam candidate regions is critical for broad-scale efforts to rapidly detect large-area dams. The framework proposed in this paper attempts to combine random forest classification models and spatial analysis methods with large dam candidate area extraction methods for large-scale areas. First, we studied the combination of optical, microwave, texture, and topographic features of the dam and constructed a multisource remote sensing and topographic feature vector of the dam. Secondly, we constructed random forest classifiers in different study areas and evaluate their performance. Then we explored the geographic characteristics of the dams and their relationships with other features. Finally, we introduced the spatial analysis method to constrain the large dam candidate area. The proposed framework was tested in a total area of 968,533 km 2 in five countries and achieved promising results, which constrained the candidate area to less than 1.06% of the total area. We calculated the completeness rate of large dams using the multi-source dam datasets. The framework achieved a completeness rate of more than 97.62%. Our results show that the entire framework is reliable for automated and fast large dam candidate area acquisition based on data from open remote sensing products.
doi_str_mv	10.1080/17538947.2023.2264816
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subjects	Analysis Completeness Dam construction Dams Large dam candidate regions Physiographic features random forest Remote sensing Spatial analysis Topography
title	Large dam candidate region identification from multi-source remote sensing images via a random forest and spatial analysis approach
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