New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed
We prepared a landslide susceptibility map for the Sarkhoon watershed, Chaharmahal-wbakhtiari, Iran, using novel ensemble artificial intelligence approaches. A classifier of support vector machine (SVM) was employed as a base classifier, and four Meta/ensemble classifiers, including Adaboost (AB), b...
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2019
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my.utm.876252020-11-30T09:06:24Z http://eprints.utm.my/id/eprint/87625/ New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed Bui, Dieu Tien Shirzadi, Ataollah Shahabi, Himan Geertsema, Marten Omidvar, Ebrahim Clague, John J. Pham, Binh Thai Dou, Jie Asl, Dawood Talebpour Ahmad, Baharin Lee, Saro NA Architecture We prepared a landslide susceptibility map for the Sarkhoon watershed, Chaharmahal-wbakhtiari, Iran, using novel ensemble artificial intelligence approaches. A classifier of support vector machine (SVM) was employed as a base classifier, and four Meta/ensemble classifiers, including Adaboost (AB), bagging (BA), rotation forest (RF), and random subspace (RS), were used to construct new ensemble models. SVM has been used previously to spatially predict landslides, but not together with its ensembles. We selected 20 conditioning factors and randomly portioned 98 landslide locations into training (70%) and validating (30%) groups. Several statistical metrics, including sensitivity, specificity, accuracy, kappa, root mean square error (RMSE), and area under the receiver operatic characteristic curve (AUC), were used for model comparison and validation. Using the One-R Attribute Evaluation (ORAE) technique, we found that all 20 conditioning factors were significant in identifying landslide locations, but "distance to road" was found to be the most important. The RS (AUC = 0.837) and RF (AUC = 0.834) significantly improved the goodness-of-fit and prediction accuracy of the SVM (AUC = 0.810), whereas the BA (AUC = 0.807) and AB (AUC = 0.779) did not. The random subspace based support vector machine (RSSVM) model is a promising technique for helping to better manage land in landslide-prone areas. MDPI AG 2019-09 Article PeerReviewed Bui, Dieu Tien and Shirzadi, Ataollah and Shahabi, Himan and Geertsema, Marten and Omidvar, Ebrahim and Clague, John J. and Pham, Binh Thai and Dou, Jie and Asl, Dawood Talebpour and Ahmad, Baharin and Lee, Saro (2019) New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed. Forests, 10 (9). p. 743. ISSN 1999-4907 http://dx.doi.org/10.3390/f10090743 |
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NA Architecture Bui, Dieu Tien Shirzadi, Ataollah Shahabi, Himan Geertsema, Marten Omidvar, Ebrahim Clague, John J. Pham, Binh Thai Dou, Jie Asl, Dawood Talebpour Ahmad, Baharin Lee, Saro New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed |
| description |
We prepared a landslide susceptibility map for the Sarkhoon watershed, Chaharmahal-wbakhtiari, Iran, using novel ensemble artificial intelligence approaches. A classifier of support vector machine (SVM) was employed as a base classifier, and four Meta/ensemble classifiers, including Adaboost (AB), bagging (BA), rotation forest (RF), and random subspace (RS), were used to construct new ensemble models. SVM has been used previously to spatially predict landslides, but not together with its ensembles. We selected 20 conditioning factors and randomly portioned 98 landslide locations into training (70%) and validating (30%) groups. Several statistical metrics, including sensitivity, specificity, accuracy, kappa, root mean square error (RMSE), and area under the receiver operatic characteristic curve (AUC), were used for model comparison and validation. Using the One-R Attribute Evaluation (ORAE) technique, we found that all 20 conditioning factors were significant in identifying landslide locations, but "distance to road" was found to be the most important. The RS (AUC = 0.837) and RF (AUC = 0.834) significantly improved the goodness-of-fit and prediction accuracy of the SVM (AUC = 0.810), whereas the BA (AUC = 0.807) and AB (AUC = 0.779) did not. The random subspace based support vector machine (RSSVM) model is a promising technique for helping to better manage land in landslide-prone areas. |
| format |
Article |
| author |
Bui, Dieu Tien Shirzadi, Ataollah Shahabi, Himan Geertsema, Marten Omidvar, Ebrahim Clague, John J. Pham, Binh Thai Dou, Jie Asl, Dawood Talebpour Ahmad, Baharin Lee, Saro |
| author_facet |
Bui, Dieu Tien Shirzadi, Ataollah Shahabi, Himan Geertsema, Marten Omidvar, Ebrahim Clague, John J. Pham, Binh Thai Dou, Jie Asl, Dawood Talebpour Ahmad, Baharin Lee, Saro |
| author_sort |
Bui, Dieu Tien |
| title |
New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed |
| title_short |
New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed |
| title_full |
New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed |
| title_fullStr |
New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed |
| title_full_unstemmed |
New ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed |
| title_sort |
new ensemble models for shallow landslide susceptibility modeling in a semi-arid watershed |
| publisher |
MDPI AG |
| publishDate |
2019 |
| url |
http://eprints.utm.my/id/eprint/87625/ http://dx.doi.org/10.3390/f10090743 |
| _version_ |
1685578964736671744 |