GIS Based Novel Hybrid Computational Intelligence Models for Mapping Landslide Susceptibility: A Case Study at Da Lat City, Vietnam

Landslides affect properties and the lives of a large number of people in many hilly parts of Vietnam and in the world. Damages caused by landslides can be reduced by understanding distribution, nature, mechanisms and causes of landslides with the help of model studies for better planning and risk m...

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Bibliographic Details
Published in:Sustainability 2019, Vol.11 (24), p.7118
Main Authors: Nguyen, Viet-Tien, Tran, Trong Hien, Ha, Ngoc Anh, Ngo, Van Liem, Nadhir, Al-Ansari, Tran, Van Phong, Duy Nguyen, Huu, M. A., Malek, Amini, Ata, Prakash, Indra, Ho, Lanh Si, Pham, Binh Thai
Format: Article
Language:English
Subjects:
alternating decision trees
bagging
Classification
Climate change
Computer applications
Creeks & streams
dagging
Decision trees
Elevation
Geographic information systems
Geoteknik
hybrid models
Intelligence
Land use
Land use management
Land use planning
Landslides
Landslides & mudslides
Lithology
Machine learning
MultiBoostAB
Normalized difference vegetative index
Optimization techniques
Precipitation
RealAdaBoost
Risk management
Soil Mechanics
Statistical analysis
Susceptibility
Topography
Wind
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Summary:Landslides affect properties and the lives of a large number of people in many hilly parts of Vietnam and in the world. Damages caused by landslides can be reduced by understanding distribution, nature, mechanisms and causes of landslides with the help of model studies for better planning and risk management of the area. Development of landslide susceptibility maps is one of the main steps in landslide management. In this study, the main objective is to develop GIS based hybrid computational intelligence models to generate landslide susceptibility maps of the Da Lat province, which is one of the landslide prone regions of Vietnam. Novel hybrid models of alternating decision trees (ADT) with various ensemble methods, namely bagging, dagging, MultiBoostAB, and RealAdaBoost, were developed namely B-ADT, D-ADT, MBAB-ADT, RAB-ADT, respectively. Data of 72 past landslide events was used in conjunction with 11 landslide conditioning factors (curvature, distance from geological boundaries, elevation, land use, Normalized Difference Vegetation Index (NDVI), relief amplitude, stream density, slope, lithology, weathering crust and soil) in the development and validation of the models. Area under the receiver operating characteristic (ROC) curve (AUC), and several statistical measures were applied to validate these models. Results indicated that performance of all the models was good (AUC value greater than 0.8) but B-ADT model performed the best (AUC= 0.856). Landslide susceptibility maps generated using the proposed models would be helpful to decision makers in the risk management for land use planning and infrastructure development.
ISSN:2071-1050
2071-1050
DOI:10.3390/su11247118