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CURRENT TRENDS IN SPACE BORNE MONITORING TECHNIQUES APPLIED FOR SOIL INSTABILITY DETECTION

/ eng. Adrian Andronic, C / Asst Daniel Marcel Manoli, / eng. Cosmin-Victor Rosu

First published: 2013-06-20https://doi.org/10.5593/sgem2013/ba1.v2/s02.009View metrics

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Title
CURRENT TRENDS IN SPACE BORNE MONITORING TECHNIQUES APPLIED FOR SOIL INSTABILITY DETECTION
Authors
/ eng. Adrian Andronic, C / Asst Daniel Marcel Manoli, / eng. Cosmin-Victor Rosu
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2013
Pages
65 - 70 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
Keywords
References26
  1. Cruden, D.M. A simple description of a landslide. Bulletin IAEG no 43, pp. 27- 29. .1991;

  2. Fruneau, B.J. et al. Observation and modelling of the Saint-Etienne-de-Tinee landslide using SAR interferometry. Tectonophysics 265, pp. 181-190. 1996; GeoConference on Science and Technologies in Geology, Exploration and Mining

  3. Carnec, C. et al. Two examples of the use of SAR interferometry on displacement fields of small extent . Geophysical Research Letters 23 (24), pp. 3579- 3582. 1996;

  4. Rott, H. et al. Monitoring very slow slope movements by means of SAR interferometry: A case study from a mass waste above a reservoir in the Otztal Alps, Austria. Geophysical Research Letters 26 (11), pp. 1629-1632. 1999;

  5. Rott, H. et al. The contribution of radar interferometry to the assessment of landslide hazards. Elsevier Advances in Space Research 37, pp. 710-719. 2006;

  6. Colesanti, C. et al. Investigating landslides with space-borne Synthetic Aperture Radar (SAR) interferometry. Elsevier Engineering Geology 88, pp. 173-199. 2006;

  7. Delayone, R. et al. ERS InSAR for Detecting Slope Movement in a Periglacial Mountain Environment. Grazer Schriften der Geographie und Raumforschung. 2007;

  8. Farina, P. et al. Permanent Scatterers for landslide investigations: outcomes from the ESA-SLAM project. Elsevier Engineering Geology 88 , pp. 200-217. 2006;

  9. Power, D.et al. InSAR Applications for Highway Transportation Projects . LakeWood: s.n, Technical Report. April 2006;

  10. Wegmuller, U. et al. Slope stability monitoring using space-borne repeat pass SAR interferometry. Lisbon: s.n., LNEC. 2008;

  11. Strozzi, T. et al. Survey and monitoring of landslide displacement by means of L-band satellite SAR interferometry. Landslides, pp. 193-201. 2005;

  12. Cascini, L. et al. A new approach to the use of DinSAR data to study slow- moving landslides over large areas. Frascati, Italy: s.n., Fringe 2009 Workshop. 2010;

  13. Cascini, L. et al. Advanced low- and full-resolution DinSAR map generation for slow-moving landslide analysis at different scales . Elsevier Engineering Geology 112 , pp. 29-42. 2010;

  14. Cruden, D.M. A simple description of a landslide. Bulletin IAEG no 43, pp. 27- 29. .1991;

  15. Fruneau, B.J. et al. Observation and modelling of the Saint-Etienne-de-Tinee landslide using SAR interferometry. Tectonophysics 265, pp. 181-190. 1996; GeoConference on Science and Technologies in Geology, Exploration and Mining

  16. Carnec, C. et al. Two examples of the use of SAR interferometry on displacement fields of small extent . Geophysical Research Letters 23 (24), pp. 3579- 3582. 1996;

  17. Rott, H. et al. Monitoring very slow slope movements by means of SAR interferometry: A case study from a mass waste above a reservoir in the Otztal Alps, Austria. Geophysical Research Letters 26 (11), pp. 1629-1632. 1999;

  18. Rott, H. et al. The contribution of radar interferometry to the assessment of landslide hazards. Elsevier Advances in Space Research 37, pp. 710-719. 2006;

  19. Colesanti, C. et al. Investigating landslides with space-borne Synthetic Aperture Radar (SAR) interferometry. Elsevier Engineering Geology 88, pp. 173-199. 2006;

  20. Delayone, R. et al. ERS InSAR for Detecting Slope Movement in a Periglacial Mountain Environment. Grazer Schriften der Geographie und Raumforschung. 2007;

  21. Farina, P. et al. Permanent Scatterers for landslide investigations: outcomes from the ESA-SLAM project. Elsevier Engineering Geology 88 , pp. 200-217. 2006;

  22. Power, D.et al. InSAR Applications for Highway Transportation Projects . LakeWood: s.n, Technical Report. April 2006;

  23. Wegmuller, U. et al. Slope stability monitoring using space-borne repeat pass SAR interferometry. Lisbon: s.n., LNEC. 2008;

  24. Strozzi, T. et al. Survey and monitoring of landslide displacement by means of L-band satellite SAR interferometry. Landslides, pp. 193-201. 2005;

  25. Cascini, L. et al. A new approach to the use of DinSAR data to study slow- moving landslides over large areas. Frascati, Italy: s.n., Fringe 2009 Workshop. 2010;

  26. Cascini, L. et al. Advanced low- and full-resolution DinSAR map generation for slow-moving landslide analysis at different scales . Elsevier Engineering Geology 112 , pp. 29-42. 2010;

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