Nhu, V. H. and Shirzadi, A. and Shahabi, H. and Singh, S. K. and Al-Ansari, N. and Clague, J. J. and Jaafari, A. and Chen, W. and Miraki, S. and Dou, J. and Luu, C. and Górski, K. and Pham, B. T. and Nguyen, H. D. and Ahmad, B. B. (2020) Shallow landslide susceptibility mapping: a comparison between logistic model tree, logistic regression, nave bayes tree, artificial neural network, and support vector machine algorithms. International Journal of Environmental Research and Public Health, 17 (8). ISSN 1661-7827
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Official URL: http://www.dx.doi.org/ 10.3390/ijerph17082749
Abstract
Shallow landslides damage buildings and other infrastructure, disrupt agriculture practices, and can cause social upheaval and loss of life. As a result, many scientists study the phenomenon, and some of them have focused on producing landslide susceptibility maps that can be used by land-use managers to reduce injury and damage. This paper contributes to this effort by comparing the power and effectiveness of five machine learning, benchmark algorithms—Logistic Model Tree, Logistic Regression, Naïve Bayes Tree, Artificial Neural Network, and Support Vector Machine—in creating a reliable shallow landslide susceptibility map for Bijar City in Kurdistan province, Iran. Twenty conditioning factors were applied to 111 shallow landslides and tested using the One-R attribute evaluation (ORAE) technique for modeling and validation processes. The performance of the models was assessed by statistical-based indexes including sensitivity, specificity, accuracy, mean absolute error (MAE), root mean square error (RMSE), and area under the receiver operatic characteristic curve (AUC). Results indicate that all the five machine learning models performed well for shallow landslide susceptibility assessment, but the Logistic Model Tree model (AUC = 0.932) had the highest goodness-of-fit and prediction accuracy, followed by the Logistic Regression (AUC = 0.932), Naïve Bayes Tree (AUC = 0.864), ANN (AUC = 0.860), and Support Vector Machine (AUC = 0.834) models. Therefore, we recommend the use of the Logistic Model Tree model in shallow landslide mapping programs in semi-arid regions to help decision makers, planners, land-use managers, and government agencies mitigate the hazard and risk.
Item Type: | Article |
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Uncontrolled Keywords: | shallow landslide, artificial intelligence, prediction accuracy |
Subjects: | N Fine Arts > NA Architecture |
Divisions: | Built Environment |
ID Code: | 87497 |
Deposited By: | Narimah Nawil |
Deposited On: | 08 Nov 2020 04:05 |
Last Modified: | 08 Nov 2020 04:05 |
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