Application of Machine Learning Models for flood risk assessment and producing map to identify flood prone areas: Literature Review
Subject Areas :
International Journal of Data Envelopment Analysis
Parisa Firoozishahmirzadi
1
,
Shaghayegh Rahimi
2
,
Zeinab Esmaeili Seraji
3
1 - Delft University of Technology, Department of Water Management, Faculty of Civil
Engineering and Geosciences, Delft, Netherlands
2 - Department of Mathematics, University of Mazandaran, Iran.
3 - Department of healthcare, Islamic Azad University of Sari, Sari, Iran.
Received: 2021-05-03
Accepted : 2021-10-21
Published : 2021-11-01
Keywords:
References:
Danso-Amoako, E.; Scholz, M.; Kalimeris, N.; Yang, ; Shao, J. Predicting dam failure risk for sustainable flood retention basins: A generic case study for the wider greater manchester area. Comput. Environ. Urban Syst. 2012, 36, 423–433.
Xie, ; Ozbay, K.; Zhu, Y.; Yang, H. Evacuation zone modeling under climate change: A data-driven method. J. Infrastruct. Syst. 2017, 23, 4017013.
Lohani, K.; Goel, N.; Bhatia, K. Improving real time flood forecasting using fuzzy inference system. J. Hydrol. 2014, 509, 25–41.
Mosavi, A.; Bathla, ; Varkonyi-Koczy, A. Predicting the Future Using Web Knowledge: State of the Art Survey. In Recent Advances in Technology Research and Education; Springer: Cham, Switzerland, 2017; pp. 341–349.
Zhao, M.; Hendon, H.H. Representation and prediction of the indian ocean dipole in the poama seasonal forecast model. J. R. Meteorol. Soc. 2009, 135, 337–352.
Borah, D.K. Hydrologic procedures of storm event watershed models: A comprehensive review and Hydrol. Process. 2011, 25, 3472–3489.
Costabile, ; Costanzo, C.; Macchione, F. A storm event watershed model for surface runoff based on 2D fully dynamic wave equations. Hydrol. Process. 2013, 27, 554–569.
Cea, L.; Garrido, M.; Puertas, J. Experimental validation of two-dimensional depth-averaged models for forecasting rainfall–runoff from precipitation data in urban areas. Hydrol. 2010, 382, 88–102.
Fernández-Pato, J.; Caviedes-Voullième, D.; García-Navarro, Rainfall/runoff simulation with 2D full shallow water equations: Sensitivity analysis and calibration of infiltration parameters. J. Hydrol. 2016, 536, 496–513.
Caviedes-Voullième, ; García-Navarro, P.; Murillo, J. Influence of mesh structure on 2D full shallow water equations and SCS curve number simulation of rainfall/runoff events. J. Hydrol. 2012, 448, 39–59.
Costabile, P.; Costanzo, C.; Macchiono, F. Comparative analysis of overland flow models using finite volume schemes. Hydroinform. 2012, 14, 122.
Xia, X.; Liang, Q.; Ming, X.; Hou, J. An efficient and stable hydrodynamic model with novel source term discretization schemes for overland flow and flood simulations. Water Resour. Res. 2017, 53, 3730–3759.
Liang, X.; Lettenmaier, D.P.; Wood, E.F.; Burges, S.J. A simple hydrologically based model of land surface water and energy fluxes for general circulation models. Geophys. Res. Atmos. 1994, 99, 14415–14428.
Costabile, P.; Macchione, F. Enhancing river model set-up for
2-D dynamic flood modeling. Model. Softw. 2015, 67, 89–107.
