Abstract
By image matching method using multi temporal LiDAR-DEM, we measured the movement of landslide in two districts where the translational landslides had occurred in different conditions of topography and vegetation. The results of applying this method were consistent with the motion vector from the GPS measurement results of the current position. The horizontal displacement of 10 cm or more is detectable when using one meter grid size DEM. A classification due to the characteristics of the slope deformation can be performed based on the displacement vectors of the ground surface. The occurrence of ground fissures is able to foresee from the large difference of displacement, and the area classification of stress field is able to determine based on displacement vectors. This new method is effective to analysis of slope movement and for planning disaster mitigation. By repeated investigation by airborne laser scanner, it is possible to monitor the slope movement in large area.
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References
Hanaoka M, Saito S, Takada H, Sato K, Sato Y, Fujiwara S, Mukoyama S, Takami T, Kobayashi Y, Kubo T, fukushima N, Yokoo Y (2013) Case study and problems on the estimation for ground displacement using airborne LiDAR data. In: Proceedings of annual meeting of Japan society of erosion control engineering. (In Japanese)
Iwasaki T, Arakawa T, Nakazato H, Masunari T, Shimizu N (2011) Development of a displacement monitoring system using GPS for installation immediately after a large-scale landslide. J Jpn Landslide Soc 48(2):100–106 (In Japanese)
Mukoyama S (2011) Estimation of ground deformation caused by the earthquake (M7.2) in Japan, 2008, from the geomorphic image analysis of high resolution LiDAR DEMs. J Mt Sci 8:239–245
Shoji A, Hiratsuka H, Tonoko N, Arakawa T, Miura T, Nakazato H (2010) The surface displacement of Shimekake landslide in 2009. In: Proceedings of the 49th meeting of the Japan Landslide Society, pp 211–212 (In Japanese)
Takami T, Mukoyama S, Saito K, Mori K (2010) A survey of landslide movement using geomorphic images made from LiDAR DEM. In: Proceedings of the 49th meeting of the Japan Landslide Society, pp 241–242 (In Japanese)
Travelletti J, Oppikoferb T, Delacourtc C, Maleta J-P, Jaboyedoffb M (2008) Monitoring landslide displacements during a controlled rain experiment using a long-range terrestrial laser scanning (TLS). Int Arch Photogrammetry Remote Sens Spat Inf Sci XXXVII, Part B5:485–490
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Takami, T., Mukoyama, S. (2015). Estimation of Ground Movement Using Multi-temporal Data from Airborne LiDAR. In: Lollino, G., et al. Engineering Geology for Society and Territory - Volume 2. Springer, Cham. https://doi.org/10.1007/978-3-319-09057-3_67
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DOI: https://doi.org/10.1007/978-3-319-09057-3_67
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