Landslide susceptibility mapping using knowledge driven statistical models in Darjeeling District, West Bengal, India
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[1] Mohammad Subzar Malik,et al. Prioritization of Sub-Watersheds for Soil and Water Conservation in Parts of Narmada River through Morphometric Analysis Using Remote Sensing and GIS , 2019, Journal of the Geological Society of India.
[2] B. Pham,et al. Assessment of advanced random forest and decision tree algorithms for modeling rainfall-induced landslide susceptibility in the Izu-Oshima Volcanic Island, Japan. , 2019, The Science of the total environment.
[3] Xuanmei Fan,et al. Two multi-temporal datasets to track the enhanced landsliding after the 2008 Wenchuan earthquake , 2018 .
[4] Sunil Saha,et al. Prioritization of sub-watersheds for soil erosion based on morphometric attributes using fuzzy AHP and compound factor in Jainti River basin, Jharkhand, Eastern India , 2018, Environment, Development and Sustainability.
[5] Mousa Abedini,et al. Assessing LNRF, FR, and AHP models in landslide susceptibility mapping index: a comparative study of Nojian watershed in Lorestan province, Iran , 2018, Environmental Earth Sciences.
[6] M. Mokarram,et al. Landslide Susceptibility Mapping Using Fuzzy-AHP , 2018, Geotechnical and Geological Engineering.
[7] P. Reichenbach,et al. A review of statistically-based landslide susceptibility models , 2018 .
[8] Javed Mallick,et al. GIS-based landslide susceptibility evaluation using fuzzy-AHP multi-criteria decision-making techniques in the Abha Watershed, Saudi Arabia , 2018, Environmental Earth Sciences.
[9] S. Pal,et al. Science of the Total Environment , 2018 .
[10] E. Mohammadi,et al. Barriers and facilitators related to the implementation of a physiological track and trigger system: A systematic review of the qualitative evidence , 2017, International journal for quality in health care : journal of the International Society for Quality in Health Care.
[11] J. Poesen,et al. Impact of landslides on soil characteristics : implications for estimating their age , 2017 .
[12] Sunil Saha,et al. Groundwater potential mapping using analytical hierarchical process: a study on Md. Bazar Block of Birbhum District, West Bengal , 2017, Spatial Information Research.
[13] S. Oliveira,et al. Mapping landslide susceptibility using data-driven methods. , 2017, The Science of the total environment.
[14] اباذر اسمعلی عوری,et al. پهنهبندی خطر زمین لغزش با استفاده از مدلهای فازی چندمعیاره در محیط GIS (مطالعه موردی: حوزهی آبخیز ایذه- خوزستان) , 2017 .
[15] Antonio Francipane,et al. Effect of raster resolution and polygon-conversion algorithm on landslide susceptibility mapping , 2016, Environ. Model. Softw..
[16] B. Pradhan,et al. Landslide susceptibility mapping at Al-Hasher area, Jizan (Saudi Arabia) using GIS-based frequency ratio and index of entropy models , 2015, Geosciences Journal.
[17] P. Atkinson,et al. A systematic review of landslide probability mapping using logistic regression , 2015, Landslides.
[18] A. Torkashvand,et al. The preparation of landslide map by Landslide Numerical Risk Factor (LNRF) model and Geographic Information System (GIS) , 2014 .
[19] Thomas Blaschke,et al. A GIS-based extended fuzzy multi-criteria evaluation for landslide susceptibility mapping , 2014, Comput. Geosci..
[20] Majid Shadman Roodposhti,et al. PROMETHEE II and fuzzy AHP: an enhanced GIS-based landslide susceptibility mapping , 2014, Natural Hazards.
[21] Biswajeet Pradhan,et al. A comparative study on the predictive ability of the decision tree, support vector machine and neuro-fuzzy models in landslide susceptibility mapping using GIS , 2013, Comput. Geosci..
[22] B. Pradhan,et al. Landslide susceptibility mapping using index of entropy and conditional probability models in GIS: Safarood Basin, Iran , 2012 .
[23] R. Bai,et al. Fractal dimension analysis of higher-order mode shapes for damage identification of beam structures , 2012 .
[24] B. Pradhan,et al. Landslide Susceptibility Assessment in Vietnam Using Support Vector Machines, Decision Tree, and Naïve Bayes Models , 2012 .
[25] B. Pradhan,et al. Delineation of landslide hazard areas on Penang Island, Malaysia, by using frequency ratio, logistic regression, and artificial neural network models , 2010 .
[26] B. Pradhan,et al. Regional landslide susceptibility analysis using back-propagation neural network model at Cameron Highland, Malaysia , 2010 .
[27] Kyoji Sassa,et al. Probabilistic modeling of seismically triggered landslides using Monte Carlo simulations , 2008 .
[28] M. García-Rodríguez,et al. Susceptibility assessment of earthquake-triggered landslides in El Salvador using logistic regression , 2008 .
[29] P. Reichenbach,et al. Estimating the quality of landslide susceptibility models , 2006 .
[30] H. A. Nefeslioglu,et al. Susceptibility assessments of shallow earthflows triggered by heavy rainfall at three catchments by logistic regression analyses , 2005 .
[31] L. Ayalew,et al. The application of GIS-based logistic regression for landslide susceptibility mapping in the Kakuda-Yahiko Mountains, Central Japan , 2005 .
[32] Andrea G. Fabbri,et al. Validation of Spatial Prediction Models for Landslide Hazard Mapping , 2003 .
[33] A. Imeson,et al. Investigation of relationships between measured field indicators and erosion processes on badland surfaces at Petrer, Spain , 2000 .
[34] T. Saaty. Fundamentals of Decision Making and Priority Theory With the Analytic Hierarchy Process , 2000 .
[35] P. Aleotti,et al. Landslide hazard assessment: summary review and new perspectives , 1999 .
[36] Jacek Malczewski,et al. GIS and Multicriteria Decision Analysis , 1999 .
[37] Thomas L. Saaty,et al. Diagnosis with Dependent Symptoms: Bayes Theorem and the Analytic Hierarchy Process , 1998, Oper. Res..
[38] A. McBratney,et al. Application of fuzzy sets in soil science: fuzzy logic, fuzzy measurements and fuzzy decisions , 1997 .
[39] L. Zadeh. Fuzzy sets , 1996 .
[40] V. Subramanyan,et al. A geomorphic evaluation of the landslides around Dehradun and Mussoorie, Uttar Pradesh, India , 1996 .
[41] John Gerrard,et al. The landslide hazard in the Himalayas: geological control and human action , 1994 .
[42] Rajat Gupta,et al. Landslide hazard zoning using the GIS approach—A case study from the Ramganga catchment, Himalayas , 1990 .
[43] Prafull Singh,et al. GIS-BASED LANDSLIDE HAZARD ZONATION ALONG NATIONAL HIGHWAY-58, FROM RISHIKESH TO JOSHIMATH, UTTARAKHAND, INDIA , 2016 .
[44] S. Hejazi. LANDSLIDE HAZARD MAPPING IN GOIJABEL OF AHAR USING GIS , 2015 .
[45] Mirnazari Javad,et al. ASSESSMENT AND ZONING OF LANDSLIDE HAZARD USING AHP MODEL AND FUZZY LOGIC OPERATORS IN POSHT TANG WATERSHED OF SAR POLE ZAHAB (KERMANSHAH PROVINCE) , 2015 .
[46] Damaris Zurell,et al. Collinearity: a review of methods to deal with it and a simulation study evaluating their performance , 2013 .
[47] T. Blaschke,et al. GIS-multicriteria decision analysis for landslide susceptibility mapping: comparing three methods for the Urmia lake basin, Iran , 2012, Natural Hazards.
[48] Bakhtiar Feizizadeh,et al. Landslide Risk Assessment Based on GIS Multi-Criteria Evaluation: A Case Study in Bostan-Abad County, Iran , 2011 .
[49] Michael Negnevitsky,et al. Artificial Intelligence: A Guide to Intelligent Systems , 2001 .
[50] R. Soeters,et al. Digital geomorphological landslide hazard mapping of the Alpago area, Italy , 2000 .
[51] A. K. Turner,et al. Landslides : investigation and mitigation , 1996 .
[52] I. Moore,et al. Digital terrain modelling: A review of hydrological, geomorphological, and biological applications , 1991 .
[53] T. Saaty. The analytic hierarchy process : planning, priority setting, resource allocation , 1980 .