Abstract
Recurrent floods are one of the major global threats among people, particularly in developing countries like India, as this nation has a tropical monsoon type of climate. Therefore, flood susceptibility (FS) mapping is indeed necessary to overcome this type of natural hazard phenomena. With this in mind, we evaluated the prediction performance of FS mapping in the Koiya River basin, Eastern India. The present research work was done through preparation of a sophisticated flood inventory map; eight flood conditioning variables were selected based on the topography and hydro-climatological condition, and by applying the novel ensemble approach of hyperpipes (HP) and support vector regression (SVR) machine learning (ML) algorithms. The ensemble approach of HP-SVR was also compared with the stand-alone ML algorithms of HP and SVR. In relative importance of variables, distance to river was the most dominant factor for flood occurrences followed by rainfall, land use land cover (LULC), and normalized difference vegetation index (NDVI). The validation and accuracy assessment of FS maps was done through five popular statistical methods. The result of accuracy evaluation showed that the ensemble approach is the most optimal model (AUC = 0.915, sensitivity = 0.932, specificity = 0.902, accuracy = 0.928 and Kappa = 0.835) in FS assessment, followed by HP (AUC = 0.885) and SVR (AUC = 0.871).
Highlights
The result of TOL and variance inflation factor (VIF) in the present research study ranged from 0.493 to 0.969 and 1.032 to 2.029, respectively, which has shown that the MC result is within the permissible threshold and free from MC problems
The performance of the ensemble model is excellent, i.e., 0.915 and 0.879, that is why we are proposing this model for flood susceptibility modeling
As one of the worst flood-affected regions in India, the eastern fringe of the Bengal basins still aging behind proper policies designed to deal with the damages incurred by the threat
Summary
Floods are one of the most devastating natural phenomena occurring throughout the world, mainly caused by long period of rainfalls or snowmelt with the amalgamation of other adverse geoenvironmental conditions [5]. Occurrences of floods have been responsible for human interventions in the environment and have been occurring more frequently than before, basically due to the large scale environmental degradation through population growth, river side flood plain encroachment, urbanization, deforestation, and more [6,7]. Changing climatic conditions associated with huge amounts of rainfall within short time periods are responsible for recurrent occurrence of floods, including flash floods [9,10]
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