Application of TLS technique to landslide monitoring：Summarization and prospect

doi:10.6046/gtzyyg.2014.03.02

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Abstract In order to summarize the characteristics and key points of TLS and stress the importance of TLS technology in landslide monitoring,this paper briefly describes the principles of TLS technology and basic methods for data processing, gives a review of TLS application history and present research situation both in China and abroad, and makes classification for these researches and applications. In addition, the crucial aspects and the prospective development of TLS are discussed. Although TLS has not become one of conventional technologies in landslide monitoring yet, it has opened up a new field of research in landslide monitoring. And it continues to expand and develop.

Keywords Hausdorff distance image registration genetic algorithm(GA) scale-invariant feature transform(SIFT)

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Issue Date: 01 July 2014

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	LI Weifeng
	ZHOU Jinqiang
	FANG Shenghui

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LI Weifeng,ZHOU Jinqiang,FANG Shenghui. Application of TLS technique to landslide monitoring：Summarization and prospect[J]. REMOTE SENSING FOR LAND & RESOURCES, 2014, 26(3): 8-15.

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https://www.gtzyyg.com/EN/10.6046/gtzyyg.2014.03.02 OR https://www.gtzyyg.com/EN/Y2014/V26/I3/8

[1] Johan K,Christophe D,Pascal A.Application of a terrestrial laser scanner(TLS)to the study of the séchilienne landslide(Isère,France)[J].Remote Sensing,2010,2(12):2785-2802.
[2] Squarzoni C,Delacourt C,Allemand P.Nine years of spatial and temporal evolution of the La Valette landslide observed by SAR interferometry[J].Engineering Geology,2003,68:53-66.
[3] Slob S,Hack R.3D terrestrial laser scanning as a new field measurement and monitoring technique[C]//Engineering Geology for Infrastructure Planning in Europe:A European Perspective,Lectures Notes in Earth Sciences.Berlin:Springer,2004,104:179-189.
[4] Ardizzone F,Cardinali M,Galli M,et al.Identification and mapping of recent rainfall-induced landslides using elevation data collected by airborne LiDAR[J].Natural Hazards and Earth System Sciences,2007,7:637-650.
[5] Gordon S,Lichti D,Stewart M.Application of a high-resolution,ground-based laser scanner for deformation measurements[C]//Proceedings of the 10th International FIG Symposium on Deformation Measurements.Orange,California,USA,2001.
[6] Oppikofer T,Jaboyedoff M,Blikra L,et al.Characterization and monitoring of the Aknes rockslide using terrestrial laser scanning[J].Natural Hazards and Earth System Sciences,2009,9:1003-1019.
[7] Abellan A,Vilaplana J,Calvet J,et al.Detection and spatial prediction of rockfalls by means of terrestrial laser scanner monitoring[J].Geomorphology,2010,119:162-171.
[8] Teza G,Galgaro A,Zaltron N,et al.Terrestrial laser scanner to detect landslide displacement fields:A new approach[J].Remote Sensing,2007,28:3425-3446.
[9] Teza G,Pesci A,Genevois R,et al.Characterization of landslide ground surface kinematics from terrestrial laser scanning and strain field computation[J].Geomorphology,2008,97:424-437.
[10] Jaboyedoff M,Oppikofer T,Abellán A,et al.Use of LiDAR in landslide investigations:A review[J].Natural Hazards,2012,61(1):5-28.
[11] Shan J,Toth C K.Topographic laser ranging and scanning:Principles and processing[M].London:CRC Press,Taylor & Francis Group,LLC,2008.
[12] Derron M,Jaboyedoff M.Preface"LiDAR and DEM techniques for landslides monitoring and characterization"[J].Natural Hazards and Earth System Sciences,2010,10:1877-1879.
[13] Heritage G,Large A.Laser scanning for the environmental sciences[M].London:Wiley-Blackwell,2009.
[14] Baltsavias E.Airborne laser scanning:Basic relations and formulas[J].ISPRS Journal of Photogrammetry and Remote Sensing,1999,54:199-214.
[15] Lichti D D,Gordon S,Stewart M.Ground-based laser scanners: Operation,systems and applications[J].Geomatica,2002,56:21-33.
[16] Feng H,Liu Y,Xi F.Analysis of digitizing errors of a laser scanning system[J].Precision Engineering,2001,25(3):185-191.
[17] Aloysius W,Uwe L.Airborne laser scanning-an introduction and overview[J].ISPRS Journal of Photogrammetry and Remote Sensing,1999,54(2/3):68-82.
[18] Manetti L,Steinmann G.Integration of a new measuring instrument in an existing generic remote monitoring platform[C]//7th International Symposium on Field Measurements in Geomechanics.Boston,2007.
[19] SafeLand deliverable 4.1.Review of techniques for landslide detection, fast characterization,rapid mapping and long-term monitoring[EB/OL].SafeLand European Project,2010.http://www.safeland-fp7.eu.
[20] Voegtle T,Schwab I,Landes T.Influences of different materials on the measurement of a Terrestrial Laser Scanner(TLS)[C]//The International Archives of the Photogrammetry,Remote Sensing and Spatial Information Sciences.Beijing,2008,37(5):1061-1066.
[21] Abellan A,Jaboyedoff M,Oppikofer T,et al.Detection of millimetric deformation using a terrestrial laser scanner:Experiment and application to rockfall event[J].Natural Hazards and Earth System Sciences,2009,9:365-372.
[22] Lichti D D.Error modelling,calibration and analysis of an AM-CW terrestrial laser scanner system[J].ISPRS Journal of Photogrammetry and Remote Sensing,2007,61:307-324.
[23] Fox C.The infrared and electro-optical systems handbook(Volume 6)[M].Ann Arbor,Michigan:Infrared Information Analysis Center,Environmental Research Institute of Michigan,SPIE Optical Engineering Press,1993.
[24] Lichti D D,Jamtsho S.Angular resolution of terrestrial laser scanners[J].Photogrammetric Record,2006,21:141-160.
[25] Ingensand H.Metrological aspects in terrestrial laser-scanning technology[C]//Proceedings of the 3rd IAG/12th FIG Symposium.Baden,Austria,2006.
[26] Pesci A,Teza G,Ventura G.Remote sensing of volcanic terrains by terrestrial laser scanner:Preliminary reflectance and RGB implications for studying Vesuvius crater(Italy)[J].Annals of Geophysics,2008,51(4):619-631.
[27] 徐进军,王海城,罗喻真,等.基于三维激光扫描的滑坡变形监测与数据处理[J].岩土力学,2010,31(7):2188-2196. Xu J J,Wang H C,Luo Y Z,et al.Deformation monitoring and data processing of landslide based on 3D laser scanning[J].Rock and Soil Mechanics,2010,31(7):2188-2196.
[28] Sturzenegger M,Yan M,Stead D,et al.Application and limitations of ground-based laser scanning in rock slope characterization[C]//Eberhardt E.Proceedings of the first Canadian US rock mechanics symposium.London:Taylor & Francis,2007:29-36.
[29] Besl P J,McKay N D.A method for registration of 3-D shapes[J].IEEE Transactions on Pattern Analysis and Machine Intelligence,1992,14(2):239-256.
[30] Chen Y,Medioni G.Object modeling by registration of multiple range images[J].Image and Vision Computing,1992,10:145-155.
[31] Lichti D D,Stewart M,Tsakiri M,et al.Calibration and testing of a terrestrial laser scanner[J].International archives of Photogrammetry and Remote sensing,2000,33(B5/2;PART 5),485-492.
[32] Gordon S,Lichti D D,Stewart M,et al.Metric performance of a high-Resolution laser scanner[C]//Proceedings of SPIE Electronic Imaging 2001 Conference.San Jose,California,2001.
[33] Hobbs P,Humphreys B,Rees J,et al.Monitoring the role of landslides in'soft cliff'coastal recession[G]//Isle of Wight.Instability Planning and Management:Seeking Sustainable Solutions to Ground Movement Problems.Thomas Telford,2002:589-600.
[34] Bitelli G,Dubbini M,Zanutta A.Terrestrial laser scanning and digital photogrammetry techniques to monitor landslide bodies[C]//Altan O.Proceedings of the XXth congress,The International Society for Photogrammetry and Remote Sensing,ISPRS2004.Istanbul:2004,35(B5):246-251.
[35] Hiremagalur J,Yen K,Akin K,et al.Creating standards and specifications for the use of laser scanning in CalTrans projects[M].California:California Department of Transportation,US,2007.
[36] Oppikofer T.Detection,analysis and monitoring of slope movements by high-resolution digital elevation models[D].Switzerland:University of Lausanne,2009.
[37] Abellan A,Vilaplana J,Martinez J.Application of a long-range terrestrial laser scanner to a detailed rockfall study at Vall de Núria(Eastern Pyrenees,Spain)[J].Engineering Geology,2006,88:136-148.
[38] Prokop A,Panholzerp H.Assessing the capability of terrestrial laser scanning for monitoring slow moving landslides[J].Natural Hazards and Earth System Sciences,2009,9(6):1921-1928.
[39] Kilian J,Haala N,Eenglich M.Capture and evaluation of airborne laser scanner data[C]//Kraus K.International Archives of Photogrammetry and Remote Sensing.Vienna:1996(B3):383-388.
[40] Pffifer N,Kostli A,Kraus K.Interpolation and filtering of laser scanner data-implementation and first results[C]//Bellman C J.International Archives of Photogrammetry and Remote Sensing.Columbus:1998(32):153-159.
[41] Vosselmann G.Slope-based filtering of laser altimetry data[J].International Archives of Photogrammetry and Remote Sensing,2000,33(B3/2):935-942.
[42] Kayen R,Robert P,Bays J.Ground-LiDAR visualization of surface and structural deformations of the Niigata-ken Chuetse[J].Earthquake Spectra,2005(22):147-162.
[43] 董秀军,黄润秋.三维激光扫描测量在汶川地震后都汶公路快速抢通中的应用[J].工程地质学报,2008,16(6):774-779. Dong X J,Huang R Q.Application of 3D laser scanner in making Duwen Road travelable in short term after Wenchuan earthquake[J].Journal of Engineering Geology,2008,16(6):774-779.
[44] 李英成,文沃根,王伟.快速获取地面三维数据的LiDAR技术系统[J].测绘科学,2002,27(4):35-38. Li Y C,Wen W G,Wang W.A LiDAR system of collecting 3D terrain data fast[J].Science of Surveying and Mapping,2002,27(4):35-38.
[45] 董秀军,黄润秋.三维激光扫描技术在高陡边坡地质调查中的应用[J].岩石力学与工程学报,2006,25(s2):3629-3635. Dong X J,Huang R Q.Application of 3D laser scanning technology to geologic survey of high and steep slope[J].Chinese Journal of Rock Mechanics and Engineering,2006,25(s2):3629-3635.
[46] Xie M W,Hu M,Wang Z F,et al.Three dimensional laser scanner to detect large reservoir landslide displacement[C]//7th International Symposium on Digital Earth.Perth,Australia,2011.
[47] Dunning S,Massey C,Rosser N.Structural and geomorphological features of landslides in the Bhutan Himalaya derived from terrestrial laser scanning[J].Geomorphology,2009,103(1):17-29.
[48] Travelletti J,Oppikofer T,Delacourt C,et al.Monitoring landslide displacements during a controlled rain experiment using a long-range terrestrial laser scanning(TLS)[J].The International Archives of the Photogrammetry,Remote Sensing Spatial Information Sciences,2008,37(B5):485-490.

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