Geoscience Reference
In-Depth Information
Chu C-M, Tsai B-W, Chang K-T (2009) Integrating decision tree and spatial cluster analysis for
landslide susceptibility zonation. World Acad Sci Eng Technol 59:479-483
Clark PJ, Evans FC (1954) Distance to nearest neighbor as a measure of spatial relationships in
populations. Ecology 35:445-453
Dempster AP (1968) Upper and lower probabilities generated by a random closed interval. Ann
Math Stat 39:957-966
Devkota K et al (2013) Landslide susceptibility mapping using certainty factor, index of entropy
and logistic regression models in GIS and their comparison at Mugling-Narayanghat road
section in Nepal Himalaya. Nat Hazards 65:135-165
Evett SR, Tolk JA, Howell TA (2006) Soil profile water content determination: sensor accuracy,
axial response, calibration, temperature dependence, and precision. Vadose Zone J 5:894
Jarman D (2006) Large rock slope failures in the Highlands of Scotland: characterisation, causes
and spatial distribution. Eng Geol 83:161-182
Keeper DK (1984) Landslides caused by earthquakes. Geol Soc Am Bull 95:406-421
Oh H-J, Lee S (2011) Landslide susceptibility mapping on Panaon island, Philippines using a
geographic information system. Environ Earth Sci 62:935-951
Park N-W (2010) Application of Dempster-Shafer theory of evidence to GIS-based landslide
susceptibility analysis. Environ Earth Sci 62:367-376
Pourghasemi HR, Pradhan B, Gokceoglu C (2012a) Application of fuzzy logic and analytical
hierarchy process (AHP) to landslide susceptibility mapping at Haraz watershed, Iran. Nat
Hazards 63:965-996
Pourghasemi HR, Mohammadi M, Pradhan B (2012b) Landslide susceptibility mapping using
index
of
entropy
and
conditional
probability
models
at
Safarood
Basin,
Iran.
Catena
Pourghasemi HR, Jirandeh AG, Pradhan B, Xu C, Gokceoglu C (2013a) Landslide susceptibility
mapping using support vector machine and GIS at the Golestan Province. Iran. J Earth Syst
Sci 122:1-21
Pourghasemi HR, Moradi HR, Fatemi Aghda SM, Gokceoglu C, Pradhan B (2013b) GIS-based
landslide susceptibility mapping with probabilistic likelihood ratio and spatial multi criteria
evaluation
models
(North
of
Tehran,
Iran).
Arab
J
Geosci.
s12517-012-0825-x
(Article online first available)
Pourghasemi HR, Pradhan B, Gokceoglu C, Moezzi KD (2013c) A comparative assessment of
prediction capabilities of Dempster-Shafer and weights of evidence models in landslide
susceptibility mapping using GIS. Geomatics Nat Hazards Risk 4(2): 93-118.
http://dx.doi.
Pradhan B, Oh HJ, Buchroithner M (2010a) Weights-of-evidence model applied to landslide
susceptibility mapping in a tropical hilly area. Geomat Nat Hazards Risk 1(3):199-223
Pradhan B, Youssef AM, Varathrajoo R (2010b) Approaches for delineating landslide hazard
areas using different training sites in an advanced artificial neural network model. Geosp Inf
Sci 13(2):93-102
Pradhan B (2011) Manifestation of an advanced fuzzy logic model coupled with Geo-information
techniques to landslide susceptibility mapping and their comparison with logistic regression
modelling. Environ Ecol Stat 18:471-493
Pradhan B, Mansor S, Pirasteh S, Buchroithner MF (2011) Landslide hazard and risk analyses at a
landslide prone catchment area using statistical based geospatial model. Int J Remote Sens
32(14):4075-4087
Pradhan B (2013) A comparative study on the predictive ability of the decision tree, support
vector machine and neuro-fuzzy models in landslide susceptibility mapping using GIS.
Comput Geosci 51:350-365
Pradhan B, Chaudhari A, Adinarayana J, Buchroithner MF (2012) Soil erosion assessment and its
correlation with landslide events using remote sensing data and GIS: a case study at Penang
Island, Malaysia. Environ Monit Assess 184:715-727
Pradhan B, Lee S (2007) Utilization of optical remote sensing data and GIS tools for regional
landslide hazard analysis using an artificial neural network model. Earth Sci Front 14:143-151
