Download Optech ILRIS-3D Laser Scanner in Studies related to - geo

Optech ILRIS-3D Laser Scanner in Studies related to Geology
and Natural Hazards
The long-range capabilities and high-precision characteristics of Optech’s ILRIS-3D terrestrial laser
scanner have led to its frequent use in research projects that are related to geology and natural hazards.
Listed below is a selection of published papers that report on studies that have used the ILRIS-3D laser
scanner as the primary method of data collection.
Bellian, J. A., Kerans, C. and Jenette, D. C. (2005) ‘Digital outcrop models: Applications of terrestrial
scanning lidar technology in stratigraphic modeling’, Journal of Sedimentary Research. 75, (2), p.166176.
Cardenal, J., Mata, E., Perez-Garcia, J. L., Delgado, J., Hernandez, M. A., Gonzalez, A., Diaz-deTeran, J. R. (2008) ‘Close range digital photogrammetry techniques applied to landslides monitoring’
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences.
Vol. XXXVII. Part B8. Beijing 2008, p.235-240.
Conforti, D. (2004) ‘Merging airborne and TLS datasets: Mapping Mount Tinisa in Italy’, GIM
International, (9), p.41-43.
Conforti, D., Tamburini, A., Deline, P. and Mortara, G. (2005) ‘Time-space modelling with terrestrial
lidar: Monitoring Ice Cliff Evolution of the Miage Glacier, Italy, with ILRIS-3D’ GIM International, 19
(11).
Donovan, J. and Raza Ali, W. (2008) ‘A change detection method for slope monitoring and
identification of potential rockfall using three-dimensional imaging’ 42nd US Rock Mechanics
Symposium and 2nd U.S.-Canada Rock Mechanics Symposium, San Francisco, June 29- July 2.
Lato. M., Diederichs, M. S., Hutchinson, D. J. and Harrap, R. (2009) ‘Optimization of LiDAR
scanning and processing for automated structural evaluation of discontinuities in rockmasses’,
International Journal of Rock Mechanics and Mining Sciences, 46, p.194–199
Lee, K., Tomasso, M., Ambrose, W. A., and Bouroullec, R. (2007) ‘Integration of GPR with
stratigraphic and lidar data to investigate behind-the-outcrop 3D geometry of a tidal channel reservoir
analog, upper Ferron Sandstone, Utah’, The Leading Edge, 26, p.994–998.
Monserrat, O. and Crosetto, M. (2007) ‘Deformation measurement using terrestrial laser scanning data
and least squares 3D surface matching’, ISPRS Journal of Photogrammetry & Remote Sensing. 63, p.142154.
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Morche, D., Schmidt, K-H., Sahling, I., Herkommer, M. and Kutschera, J. (2008) ‘Volume changes
in Aloine sediment stores in a state of post-event disequilibrium and the implications for downstream
hydrology and bed load transport’, Norsk Geografisk Tidsskrift-Norwegian Journal of Geography. 62,
p.89-101.
Oppikofer, T., Jaboyedoff, M., Bilkra, L. H. and Derron, M-H. (2008) ‘Characterization and
monitoring of the Åknes rockslide using terrestrial laser scanning’, in Locat, J., Perret, D., Turmel, D.,
Demers, D. and Leroueil, S. (Eds.) Comptes rendus de la 4e Conférence canadienne sur les géorisques:
des causes à la gestion. Proceedings of the 4th Canadian Conference on Geohazards : From Causes to
Management. Presse de l’Université Laval, Québec, pp.594.
Oppikofer, T., Jaboyedoff, M. and Keusen, H-R (2008) ‘Collapse at the eastern Eiger flank in the
Swiss Alps’, Nature Geoscience. 1, p.531-535.
Pesci, A., Conforti, D., Bacciocchi, M. (2007) ‘Morphing Mount Vesuvius: New insights in LiDAR
technology enable modeling morphological changes of an active volcano in Italy’, Professional Surveyor
Magazine, p.12-16.
Rabatel, A., Deline, P., Jaillet, S. and Ravanel, L. (2008) ‘Rock falls in high-alpine rock walls
quantified by terrestrial lidar measurements: A case study in the Mont Blanc area’, Geophysical Research
Letters. 35, L10502.
Sturzenegger, M. and Stead, D. (2009) ‘Quantifying discontinuity orientation and persistence on high
mountain rock slopes and large landslides using terrestrial remote sensing techniques’, Natural Hazards
and Earth System Sciences. 9, p.267-287.
Stouth, A. and Eberhardt, E. (2006) ‘The use of LiDAR to overcome rock slope hazard data collection
challenges at Afternoon Creek, Washington’, Golden Rocks 2006, The 41st U.S. Symposium on Rock
Mechanics (USRMS): "50 years of rock mechanics landmarks and future challenges”. Golden, Colorado,
June 17-21.
Sui, L., Qang, X., Zhao, D. and Qu, J. (2008) ‘Application of 3D laser scanner for monitoring of
landslide hazards’, The International Archives of the Photogrammetry, Remote Sensing and Spatial
Information Sciences. Vol. XXXVII. Part B1. Beijing 2008, p.277-282.
Travellit, J., Oppikofer, T., Delacourt, C., Malet, J-P. and Jaboyedoff, M. (2008) ‘Monitoring
landslide displacements during a controlled rain experiment using long-range terrestrial scanning (TLS)’,
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences.
Vol. XXXVII. Part B5. Beijing 2008, p.385-490.
For further information, please contact:
Dave Adams, Product Manager
[email protected]
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