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Pradhan B, Lee S (2010b) Landslide susceptibility assessment and factor effect analysis:
backpropagation arti
cial neural networks and their comparison with frequency ratio and
bivariate logistic regression modeling. Environ Models Softw 25(6):747
-
759
Pradhan B, Lee S (2010c) Regional landslide susceptibility analysis using back-propagation neural
network model at Cameron highland, Malaysis. Landslides 7(1):13
-
30
Parise M, Jibson WR (2000) A seismic landslide susceptibility rating of geologic units based on
analysis of characteristics of landslides triggered by the 17 January, 1994 Northridge,
California earthquake. Eng Geol 58:251
270
Quinn et al (1991) The prediction of hillslope flow paths for distributed hydrological modeling
using digital terrain models. Hydro Processes 5:59
-
79
Rowbotham D, Dudycha DN (1998) GIS modelling of slope stability in Phewa Tal watershed,
Nepal. Geomorphology 26:151
-
170
Saaty TL (1980) The analytical hierarchy process. McGraw Hill, New York, 350p
Saaty TL (1990) The analytical hierarchy process: planning, priority setting, resource allocation,
1st edn. RWS Publication, Pittsburgh, 502p
Saaty TL (1994) Fundamentals of decision making and priority theory with analytic hierarchy
process, 1st edn. RWS Publication, Pittsburgh, 527p
Saaty TL, Vargas LG (2001) Models, methods, concepts and applications of the analytic hierarchy
process, 1st edn. Kluwer Academic, Boston, 333p
Sarkar S, Kanungo DP (2004) An integrated approach for landslide susceptibility mapping using
remote sensing and GIS. Photogram Eng Remote Sens 70(5):617
-
625
Sharifikia M (2007) RS and GIS application in Geo-hazard- A case study part of central Alborz-
Iran. Ph.D. thesis submitted in Geology Department, University of Delhi, India
Sinha-Roy S (1982) Himalayan main central thrust and its implication for Himalayan inverted
metamorphism. Tectonophysics 84:197
-
224
Soeters R, Westen CJ (1996) Slope instability recognition, analysis and zonation. In: Turner AK
and Schuster RL (eds) Landslides: investigation and mitigation. transportation research board
special report 247. National Academy Press, Washington, DC, pp 129
-
177
Tiwari B, Marui H (2001) Shearing behaviour of landslide sliding and mining scarp soil during
drained ring shear test. In: Proceedings of XVth international conference on soil mechanics and
geotechnical engineering, vol 1, Istambul, pp 295
-
298
Tiwari B, Marui H (2002) Mechanism of shear zone formation and its effect in residual shear
strength. In: Proceedings of 3rd international conference on landslides, slope stability and
safety of infrastructure, vol 1, pp 4
-
133
Tiwari B, Marui H (2003) Estimation of residualshear strength for bentonite-kaolin-Toyoura sand
mixture. J Japn Landslide Soc 40(2):124
-
133
Tiwari B, Marui H (2004) Objective oriented multi-stage ring shear test for the shear strength of
the landslide soil. J Geotech Geoenviron Eng ASCE 130(2):217
-
222
Van Westen CJ, Castellanos Abella E, Sekhar LK (2008) Spatial data for landslide susceptibility,
hazards and vulnerability assessment: an overview. Eng Geol 102(3
-
4):112
-
131
Varnes DJ (1958) Landslide types and processes. In: Eckel EB (ed) Landslides engineering
practice: highway research board, special
-
report 29, vol 544. NAS-NRC Publication,
47
Vanmarcke EH (1977) Reliability of earth slopes.
Washington, DC, pp 20
-
J Geotechl Eng Div ASCE 103
126
Varnes DJ (1984) Landslide hazard zonation review of principle and practice. Natural hazards,
UNESCO, Paris
Vijith H, Madhu G (2008) Estimating potential landslide sites of an upland sub-watershed in
Western Ghat
(GT11):1247
-
'
s of Kerala (India)
through frequency ratio and GIS. Environ Geol
1405
Windisch EJ (1991) The hydraulics problem in slope stability analysis. Can Geotech J 28
(6):903
-
909
55:1397
-
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