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Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran

We generated high-quality shallow landslide susceptibility maps for Bijar County, Kurdistan Province, Iran, using Random Forest (RAF), an ensemble computational intelligence method and three meta classifiers—Bagging (BA, BA-RAF), Random Subspace (RS, RS-RAF), and Rotation Forest (RF, RF-RAF). Modeli...

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Main Authors: Viet, H. N., Shirzadi, A., Shahabi, H., Wei, C., John, J. C., Marten, G., Jaafari, A., Avand, M., Miraki, S., Asl, D. T., Binh, T. P., Ahmad, B., Lee, Saro
Format: Article
Published: MDPI AG 2020
Subjects:
G70.39-70.6 Remote sensing
Online Access:http://eprints.utm.my/id/eprint/86974/
http://www.doi.org/10.3390/f11040421
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spelling my.utm.869742020-10-22T04:21:48Z http://eprints.utm.my/id/eprint/86974/ Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran Viet, H. N. Shirzadi, A. Shahabi, H. Wei, C. John, J. C. Marten, G. Jaafari, A. Avand, M. Miraki, S. Asl, D. T. Binh, T. P. Ahmad, B. Lee, Saro G70.39-70.6 Remote sensing We generated high-quality shallow landslide susceptibility maps for Bijar County, Kurdistan Province, Iran, using Random Forest (RAF), an ensemble computational intelligence method and three meta classifiers—Bagging (BA, BA-RAF), Random Subspace (RS, RS-RAF), and Rotation Forest (RF, RF-RAF). Modeling and validation were done on 111 shallow landslide locations using 20 conditioning factors tested by the Information Gain Ratio (IGR) technique. We assessed model performance with statistically based indexes, including sensitivity, specificity, accuracy, kappa, root mean square error (RMSE), and area under the receiver operatic characteristic curve (AUC). All four machine learning models that we tested yielded excellent goodness-of-fit and prediction accuracy, but the RF-RAF ensemble model (AUC = 0.936) outperformed the BA-RAF, RS-RAF (AUC = 0.907), and RAF (AUC = 0.812) models. The results also show that the Random Forest model significantly improved the predictive capability of the RAF-based classifier and, therefore, can be considered as a useful and an effective tool in regional shallow landslide susceptibility mapping. MDPI AG 2020-04 Article PeerReviewed Viet, H. N. and Shirzadi, A. and Shahabi, H. and Wei, C. and John, J. C. and Marten, G. and Jaafari, A. and Avand, M. and Miraki, S. and Asl, D. T. and Binh, T. P. and Ahmad, B. and Lee, Saro (2020) Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran. Forests, 11 (4). p. 421. http://www.doi.org/10.3390/f11040421 DOI:10.3390/f11040421
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic G70.39-70.6 Remote sensing
spellingShingle G70.39-70.6 Remote sensing
Viet, H. N.
Shirzadi, A.
Shahabi, H.
Wei, C.
John, J. C.
Marten, G.
Jaafari, A.
Avand, M.
Miraki, S.
Asl, D. T.
Binh, T. P.
Ahmad, B.
Lee, Saro
Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran
description We generated high-quality shallow landslide susceptibility maps for Bijar County, Kurdistan Province, Iran, using Random Forest (RAF), an ensemble computational intelligence method and three meta classifiers—Bagging (BA, BA-RAF), Random Subspace (RS, RS-RAF), and Rotation Forest (RF, RF-RAF). Modeling and validation were done on 111 shallow landslide locations using 20 conditioning factors tested by the Information Gain Ratio (IGR) technique. We assessed model performance with statistically based indexes, including sensitivity, specificity, accuracy, kappa, root mean square error (RMSE), and area under the receiver operatic characteristic curve (AUC). All four machine learning models that we tested yielded excellent goodness-of-fit and prediction accuracy, but the RF-RAF ensemble model (AUC = 0.936) outperformed the BA-RAF, RS-RAF (AUC = 0.907), and RAF (AUC = 0.812) models. The results also show that the Random Forest model significantly improved the predictive capability of the RAF-based classifier and, therefore, can be considered as a useful and an effective tool in regional shallow landslide susceptibility mapping.
format Article
author Viet, H. N.
Shirzadi, A.
Shahabi, H.
Wei, C.
John, J. C.
Marten, G.
Jaafari, A.
Avand, M.
Miraki, S.
Asl, D. T.
Binh, T. P.
Ahmad, B.
Lee, Saro
author_facet Viet, H. N.
Shirzadi, A.
Shahabi, H.
Wei, C.
John, J. C.
Marten, G.
Jaafari, A.
Avand, M.
Miraki, S.
Asl, D. T.
Binh, T. P.
Ahmad, B.
Lee, Saro
author_sort Viet, H. N.
title Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran
title_short Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran
title_full Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran
title_fullStr Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran
title_full_unstemmed Shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran
title_sort shallow landslide susceptibility mapping by random forest base classifier and its ensembles in a semi-arid region of iran
publisher MDPI AG
publishDate 2020
url http://eprints.utm.my/id/eprint/86974/
http://www.doi.org/10.3390/f11040421
_version_ 1681489499027144704
score 13.209306

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