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Himan Shahabi

Himan Shahabi

Academic rank: Professor
ORCID:
Education: PhD.
ScopusId: 23670602300
HIndex: 0/00
Faculty: Faculty of Natural Resources
Address: Faculty of Natural Resources, University of Kurdistan, Sanandaj, Iran
Phone: 087-33664600-8 داخلی 4312

Research

Title
A novel hybrid artificial intelligence approach based on the rotation forest ensemble and na€ ıve Bayes tree classifiers for a landslide susceptibility assessment in Langao County, China
Type
JournalPaper
Keywords
Landslide susceptibility mapping, hybrid integration approach, comparison, GIS, China
Year
2017
Journal Geomatics, Natural Hazards and Risk
DOI
Researchers Wei Chen ، Ataollah Shirzadi ، Himan Shahabi ، Baharin Ben Ahmad ، Shuai Zhang ، Haoyuan Hong ، Ning Zhang

Abstract

The main objective of this study was to produce landslide susceptibility maps for Langao ‎County, China, using a novel hybrid artificial intelligence method based on rotation forest ‎ensembles (RFEs) and naïve Bayes tree (NBT) classifiers labeled the RF-NBT model. The ‎spatial database consisted of eighteen conditioning factors that were selected using the ‎information gain ratio (IGR) method. The model was evaluated using quantitative statistical ‎criteria, including the sensitivity, specificity, accuracy, root mean squared error (RMSE), and ‎area under the receiver operating characteristic curve (AUC). Furthermore, the new model ‎was compared with the NBT, functional tree (FT), logistic model tree (LMT) and reduced-‎error pruning tree (REPTree) soft computing benchmark models. The findings indicated that ‎the RF-NBT model showed an increased prediction accuracy relative to the NBT model using ‎both the training and validation datasets, and the RF-NBT model exhibited a greater ‎capability for landslide susceptibility mapping. The new RF-NBT model also showed the ‎most preferable results compared with the FT, LMT and REPTree models. Finally, an analysis ‎of the landslide density (LD) using the RF-NBT model demonstrated that the very high ‎susceptibility (VHS) class had the highest LD (3.552) among the landslide susceptibility ‎maps. These results can be used for the planning and management of areas vulnerable to ‎landslides in order to prevent damages caused by such natural disasters.‎