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FRAMEWORK FOR PROCESSING RIVER BANK POINT CLOUDS GENERATED BY TERRESTRIAL LASER SCANNING

Niculita, Mihai, Dumitriu, Conferencer Dan

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b23/s11.075View metrics

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Publication details

Title
FRAMEWORK FOR PROCESSING RIVER BANK POINT CLOUDS GENERATED BY TERRESTRIAL LASER SCANNING
Authors
Niculita, Mihai, Dumitriu, Conferencer Dan
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on INFORMATICS, GEOINFORMATICS AND REMOTE SENSING
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-12-4
Language
en
Publication type
Conference Paper
References30
  1. Brasington J. Vericat D. & Rychkov I. Modeling river bed morphology, roughness, and surface sedimentology using high resolution terrestrial laser scanning, Water Resour. Res., pp. 15-48, 2012

  2. Charlton M.E. Coveney S.J. & McCarthy T. Issues in Laser Scanning, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp. -48, 2009.

  3. Foerst M. & Rüther N. Measuring bank retreat in fluvial environments with Terrestrial Laser Scanning (TLS), Earth Surf. Dynam. Discuss., 1, pp. 951–972, 2013.

  4. GRASS Development Team Geographic Resources Analysis Support System (GRASS) Software, Version 6.4.2, Open Source Geospatial Foundation, h ttp://grass.osgeo.org, 2012.

  5. Lague D. Brodu N. & Leroux J. Accurate 3D comparison of complex topography with terrestrial laser scanner: application to the Rangitikei canyon (N-Z), ISPRS Journal of Photogrammetry and Remote Sensing 82, pp. 10-26, 2013.

  6. Large A.R.G. & Heritage G.L. Laser Scanning – Evolution of the Discipline, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp 1- 20, 2009.

  7. Large A.R.G. & Heritage G.L. Principles of 3D Laser Scanning, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp. 21-34, 2009.

  8. Large A.R.G., George L. Heritage and Martin E. Charlton Laser Scanning: The Future, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp 262-, 2009.

  9. Lim M., Mills J. & Rosser N. Laser Scanning Surveying of Linear Features: Considerations and Applications, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp 245-261, 2009.

  10. Hetherington D. Laser Scanning: Data Quality, Protocols and General Issues, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp. 82-101, 2009. 14th SGEM GeoConference on Informatics, Geoinformatics and Remote Sensing

  11. Mechelke, K., Kersten, T.P., Lindstaedt, M., 2007. Comparative investigations int o the accuracy behaviour of the new generation of Terrestrial Laser Scanning systems, Optical 3-D Measurement Techniques VIII, Gruen/Kahmen (Eds.), Zurich, July 9-12, 2007, vol. I, pp. 319-327.

  12. Mitra, N.J., Nguyen, A., 2003. Estimating surface normals in noisy point cloud data, Proceedings of the 19th ACM Symposium on Computational Geometry, San Diego, CA, USA, 8-10 June 2003, pp. 322– 328.

  13. Nasermoaddeli M.H. & Pasche E. Application of terrestrial 3D laser scanner in quantification of the riverbank erosion and deposition, In: Proceedings of Riverflow 2008, Cesme-Ismir, Turkey,Sep. 3-5, Vol (3), pp.2407-2416, 2008.

  14. Resop, J. P. and Hession, W. C.: Terrestrial laser scanning for monitoring streambank retreat: comparison with traditional surveying techniques, J. Hydraul. Eng., 136, 794–798, 2010

  15. Wheaton, J.M., Brasington, J., Darby, S.E., Sear, D.A., 2009. Accounting for uncertainty in DEMs from repeat topographic surveys: improved sediment budgets. Earth Surface Processes and Landforms 35 (2), 136–156.

  16. Brasington J. Vericat D. & Rychkov I. Modeling river bed morphology, roughness, and surface sedimentology using high resolution terrestrial laser scanning, Water Resour. Res., pp. 15-48, 2012

  17. Charlton M.E. Coveney S.J. & McCarthy T. Issues in Laser Scanning, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp. -48, 2009.

  18. Foerst M. & Rüther N. Measuring bank retreat in fluvial environments with Terrestrial Laser Scanning (TLS), Earth Surf. Dynam. Discuss., 1, pp. 951–972, 2013.

  19. GRASS Development Team Geographic Resources Analysis Support System (GRASS) Software, Version 6.4.2, Open Source Geospatial Foundation, h ttp://grass.osgeo.org, 2012.

  20. Lague D. Brodu N. & Leroux J. Accurate 3D comparison of complex topography with terrestrial laser scanner: application to the Rangitikei canyon (N-Z), ISPRS Journal of Photogrammetry and Remote Sensing 82, pp. 10-26, 2013.

  21. Large A.R.G. & Heritage G.L. Laser Scanning – Evolution of the Discipline, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp 1- 20, 2009.

  22. Large A.R.G. & Heritage G.L. Principles of 3D Laser Scanning, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp. 21-34, 2009.

  23. Large A.R.G., George L. Heritage and Martin E. Charlton Laser Scanning: The Future, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp 262-, 2009.

  24. Lim M., Mills J. & Rosser N. Laser Scanning Surveying of Linear Features: Considerations and Applications, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp 245-261, 2009.

  25. Hetherington D. Laser Scanning: Data Quality, Protocols and General Issues, in G.L. Heritage & A.R.G Large, Laser Scanning for the Environmental Sciences, Wiley, pp. 82-101, 2009. 14th SGEM GeoConference on Informatics, Geoinformatics and Remote Sensing

  26. Mechelke, K., Kersten, T.P., Lindstaedt, M., 2007. Comparative investigations int o the accuracy behaviour of the new generation of Terrestrial Laser Scanning systems, Optical 3-D Measurement Techniques VIII, Gruen/Kahmen (Eds.), Zurich, July 9-12, 2007, vol. I, pp. 319-327.

  27. Mitra, N.J., Nguyen, A., 2003. Estimating surface normals in noisy point cloud data, Proceedings of the 19th ACM Symposium on Computational Geometry, San Diego, CA, USA, 8-10 June 2003, pp. 322– 328.

  28. Nasermoaddeli M.H. & Pasche E. Application of terrestrial 3D laser scanner in quantification of the riverbank erosion and deposition, In: Proceedings of Riverflow 2008, Cesme-Ismir, Turkey,Sep. 3-5, Vol (3), pp.2407-2416, 2008.

  29. Resop, J. P. and Hession, W. C.: Terrestrial laser scanning for monitoring streambank retreat: comparison with traditional surveying techniques, J. Hydraul. Eng., 136, 794–798, 2010

  30. Wheaton, J.M., Brasington, J., Darby, S.E., Sear, D.A., 2009. Accounting for uncertainty in DEMs from repeat topographic surveys: improved sediment budgets. Earth Surface Processes and Landforms 35 (2), 136–156.

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