Identification of Forested Landslides Using LiDar Data, Object-based Image Analysis, and Machine Learning AlgorithmsReport as inadecuate




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Faculty of Information Engineering, China University of Geosciences, Wuhan 430074, China

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Faculty of Computer Science and Hubei Key Laboratory of Intelligent Geo-Information Processing, China University of Geosciences, Wuhan 430074, China

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Faculty of Geo-Information Science and Earth Observation ITC, University of Twente, 7500 Enschede, The Netherlands

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Institute for Remote Sensing Method, China Aero Geophysical Survey and Remote Sensing Center for Land and Resources, Beijing 100083, China





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Academic Editors: Norman Kerle and Prasad S. Thenkabail

Abstract For identification of forested landslides, most studies focus on knowledge-based and pixel-based analysis PBA of LiDar data, while few studies have examined semi- automated methods and object-based image analysis OBIA. Moreover, most of them are focused on soil-covered areas with gentle hillslopes. In bedrock-covered mountains with steep and rugged terrain, it is so difficult to identify landslides that there is currently no research on whether combining semi-automated methods and OBIA with only LiDar derivatives could be more effective. In this study, a semi-automatic object-based landslide identification approach was developed and implemented in a forested area, the Three Gorges of China. Comparisons of OBIA and PBA, two different machine learning algorithms and their respective sensitivity to feature selection FS, were first investigated. Based on the classification result, the landslide inventory was finally obtained according to 1 inclusion of holes encircled by the landslide body; 2 removal of isolated segments, and 3 delineation of closed envelope curves for landslide objects by manual digitizing operation. The proposed method achieved the following: 1 the filter features of surface roughness were first applied for calculating object features, and proved useful; 2 FS improved classification accuracy and reduced features; 3 the random forest algorithm achieved higher accuracy and was less sensitive to FS than a support vector machine; 4 compared to PBA, OBIA was more sensitive to FS, remarkably reduced computing time, and depicted more contiguous terrain segments; 5 based on the classification result with an overall accuracy of 89.11% ± 0.03%, the obtained inventory map was consistent with the referenced landslide inventory map, with a position mismatch value of 9%. The outlined approach would be helpful for forested landslide identification in steep and rugged terrain. View Full-Text

Keywords: landslide inventory; LiDar; object-based image analysis; machine learning; the Three Gorges landslide inventory; LiDar; object-based image analysis; machine learning; the Three Gorges





Author: Xianju Li 1, Xinwen Cheng 1, Weitao Chen 2,3,* , Gang Chen 1 and Shengwei Liu 4

Source: http://mdpi.com/



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