Geoinformatics-based frequency ratio, analytic hierarchy process and hybrid models for landslide susceptibility zonation in Kurdistan Region, Northern Iraq
Author:
Publisher
Springer Science and Business Media LLC
Subject
Management, Monitoring, Policy and Law,Economics and Econometrics,Geography, Planning and Development
Link
https://link.springer.com/content/pdf/10.1007/s10668-023-02995-7.pdf
Reference53 articles.
1. Ado, M., Amitab, K., Maji, A. K., Jasińska, E., Gono, R., Leonowicz, Z., & Jasiński, M. J. R. S. (2022). Landslide susceptibility mapping using machine learning: A literature survey. Remote Sensing, 14(13), 3029.
2. Agrawal, N., & Dixit, J. J. A. E. (2022). Assessment of landslide susceptibility for Meghalaya (India) using bivariate (Frequency Ratio and Shannon Entropy) and multi-criteria decision analysis (AHP and Fuzzy-AHP) models. (just-accepted).
3. Ahmadi, H., & Pekkan, E. J. G. (2021). Fault-based geological lineaments extraction using remote sensing and GIS—a review. Geosciences, 11(5), 183.
4. Akinci, H., Kilicoglu, C., & Dogan, S. J. I. I. J. O. G. I. (2020). Random forest-based landslide susceptibility mapping in coastal regions of Artvin Turkey. ISPRS International Journal of Geo-Information, 9(9), 553.
5. Ali, S. A., Khatun, R., Ahmad, A., & Ahmad, S. N. (2019). Application of GIS-based analytic hierarchy process and frequency ratio model to flood vulnerable mapping and risk area estimation at Sundarban region India. Modeling Earth Systems and Environment, 5(3), 1083–1102.
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