Movement and Erosion Quantification of Large Landslide through Terrestrial Laser Scanning

Man Hu; Mo Wen Xie; Bo Xu; Li Wei Wang

doi:10.4028/www.scientific.net/AMR.838-841.1985

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 838-841Movement and Erosion Quantification of Large...

Movement and Erosion Quantification of Large Landslide through Terrestrial Laser Scanning

Abstract:

The deformation monitoring of the landslide is an important research in the field of slope engineering. The terrestrial laser scanner is frequently applied to the deformation monitoring for landslide risk reduction in recent years. In this paper, the deformation was detected by means of comparison of sequential scanning datasets. And the erosion quantification can be extracted from the deformation. Finally, a preliminary change analysis methodology to distinguish landslide movement from erosion is presented. Our results enable us evaluate the stability of the landslide generally and basically. The application of terrestrial laser scanning to detect the movement and erosion quantification provides us another considerably effective and efficient way in the high-risk landslide deformation monitoring.

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Advanced Materials Research (Volumes 838-841)

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1985-1991

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https://doi.org/10.4028/www.scientific.net/AMR.838-841.1985

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November 2013

Authors:

Man Hu*, Mo Wen Xie, Bo Xu, Li Wei Wang

Keywords:

Erosion Quantification, Landslide, Movement, Terrestrial Laser Scanning

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References

[1] T. Oppikofer, M. Jaboyedoff, L. Blikra, M. Derron. Characterization and monitoring of the Aknes rockslide using terrestrial laser scanning. Natural Hazards and Earth System Sciences. 2009, 9: 1643–1653.

DOI: 10.5194/nhess-9-1003-2009

Google Scholar

[2] A. Abellan,J. Vilaplana, J. Calvet, J. Blanchard. Detection and spatial prediction of rock falls by means of terrestrial laser scanning modeling. Geomorphology. 2010, 119: 162–171.

DOI: 10.1016/j.geomorph.2010.03.016

Google Scholar

[3] P. Hobbs, B. Humphreys, J. Rees, D. Tragheim. Monitoring the role of landslides in soft cliff, coastal recession. In: Instability Planning and Management. Thomas Telford, Isle of Wight, 589-600. (2002).

Google Scholar

[4] G. Bitelli, M. Dubbini, A. Zanutta. Terrestrial laser scanning and digital photogrammetry techniques to monitor landslide bodies. In: Proceedings of the XXth ISPRS congress, Istanbul, Turkey, Commission V, WG V/2, (2004).

Google Scholar

[5] A. Abellan, J. Vilaplana, J. Martinez. Application of a long-range Terrestrial Laser Scanner to a detailed rockfall study at Vall de Núria (Eastern Pyrenees, Spain). Engineering Geology. 2006. 88: 136–148.

DOI: 10.1016/j.enggeo.2006.09.012

Google Scholar

[6] A. Prokop,H. Panholzerp. Assessing the capability of terrestrial laser scanning for monitoringslow moving landslides. Natural Hazardsand EarthSystem Sciences. 2009. 9, 1921–(1928).

DOI: 10.5194/nhess-9-1921-2009

Google Scholar

[7] E. Baltsavias. Airborne laser scanning: basic relations and formulas. ISPRS Journal of Photogrammetry and Remote Sensing. 1999, 54: 199–214.

DOI: 10.1016/s0924-2716(99)00015-5

Google Scholar

[8] D. Lichti, S. Gordon, M. Stewart. Ground-based laser scanners: Operation, systems and applications. Geomatica. 2002, 56: 21–33.

Google Scholar

[9] F. Hsi-Yung, L. Yixin, X. Fengfeng. Analysis of digitizing errors of a laser scanning system. Precision Engineering. 2001, 25(3): 185–191.

Google Scholar

[10] W. Aloysius, L. Uwe. Airborne laser scanning—an introduction and overview. ISPRS Journal of Photogrammetry and Remote Sensing. 1999, 54(2-3): 68–82.

DOI: 10.1016/s0924-2716(99)00011-8

Google Scholar

[11] D.D. Lichti, S.J. Gordon M.P. Stewart. Ground-based laser scanners: Operation, systems and applications. Geomatica 2002, 56, 21–33.

Google Scholar

[12] J. Riegl,N. Studnicka, A. Ullrich. Merging and processing of laser scan data and high-resolution digital images acquired with a hybrid 3D laser sensor. In Proceedings of CIPA, XIXth International Symposium, Antalya, Turkey, 30 September–4 October, (2003).

Google Scholar