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- Title
An algorithm for measuring landslide deformation in terrestrial lidar point clouds using trees.
- Authors
Weidner, Luke; van Veen, Megan; Lato, Matt; Walton, Gabriel
- Abstract
Terrestrial lidar data is a powerful resource for monitoring geohazards such as rockfall and landslides. However, vegetated landslides with horizontal shear surfaces remain difficult to characterize accurately due to a lack of exposed and appropriately oriented surfaces with respect to the lidar scanner. As an alternative, the movements of objects on the slope, such as trees, can be used to estimate slope movement. This paper demonstrates a novel semi-automated algorithm to extract and calculate the 3D displacement of trees on a slow-moving landslide, enabling more detailed landslide deformation analysis using point clouds. The method first uses local geometric descriptors to identify raw points corresponding to tree trunks. Several machine learning techniques are compared for this step, and an unsupervised decision tree algorithm with an accuracy of 84% is selected as the final method. After clustering points into individual trunks, trunks are matched through time according to several matching criteria, and their movement and rotation are then calculated using an iterative closest point algorithm. Accuracy of the automated displacement calculations is confirmed through comparison with manual point cloud measurements. A case study is presented demonstrating the method on a landslide through different seasonal vegetation changes, illustrating that algorithm parameters can be quickly adjusted to account for variations in tree species, density of foliage, scanner distance, and other factors. The final matching precision is demonstrated to be between 89 and 99%, indicating a very small number of false-positive matches.
- Subjects
LANDSLIDES; ALGORITHMS; POINT cloud; LIDAR; TREE trunks; VEGETATION dynamics
- Publication
Landslides, 2021, Vol 18, Issue 11, p3547
- ISSN
1612-510X
- Publication type
Article
- DOI
10.1007/s10346-021-01723-4