Remote Sensing (Jan 2024)

The Prediction of Cross-Regional Landslide Susceptibility Based on Pixel Transfer Learning

  • Xiao Wang,
  • Di Wang,
  • Xinyue Li,
  • Mengmeng Zhang,
  • Sizhi Cheng,
  • Shaoda Li,
  • Jianhui Dong,
  • Luting Xu,
  • Tiegang Sun,
  • Weile Li,
  • Peilian Ran,
  • Liang Liu,
  • Baojie Wang,
  • Ling Zhao,
  • Xinyi Huang

DOI
https://doi.org/10.3390/rs16020347
Journal volume & issue
Vol. 16, no. 2
p. 347

Abstract

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Considering the great time and labor consumption involved in conventional hazard assessment methods in compiling landslide inventory, the construction of a transferable landslide susceptibility prediction model is crucial. This study employs UAV images as data sources to interpret the typical alpine valley area of Beichuan County. Eight environmental factors including a digital elevation model (DEM) are extracted to establish a pixel-wise dataset, along with interpreted landslide data. Two landslide susceptibility models were built, each with a deep neural network (DNN) and a support vector machine (SVM) as the learner, and the DNN model was determined to have the best pre-training performance (accuracy = 88.6%, precision = 91.3%, recall = 94.8%, specificity = 87.8%, F1-score = 93.0%, and area under curve = 0.943), with higher parameters in comparison to the SVM model (accuracy = 77.1%, precision = 80.9%, recall = 87.8%, specificity = 73.9%, F1-score = 84.2%, and area under curve = 0.878). The susceptibility model of Beichuan County is then transferred to Mao County (which has no available dataset) to realize cross-regional landslide susceptibility prediction. The results suggest that the model predictions accomplish susceptibility zoning principles and that the DNN model can more precisely distinguish between high and very-high susceptibility areas in relation to the SVM model.

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