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Article Abstract
Local Intensive Precipitation (LIP), intensified by climate change, has increasingly caused severe urban flooding. Although traditional hydrodynamic models such as SWMM and FLO-2D offer high accuracy in flood prediction, their computational demands hinder real-time application. This study introduces a rapid flood depth prediction model based on a Support Vector Machine (SVM), trained with data generated from a physically-based 1D-2D coupled simulation. The target area is the Jinheung Apartment intersection in Gangnam, Seoul-an area highly prone to flooding. Cumulative rainfall and manhole overflow data from 1 to 5 h scenarios were used as input variables to predict flood depth. Model validation consisted of two parts: (1) the 1D-2D hydrodynamic model (SWMM-FLO-2D) was validated using observed flood records from September 21, 2010, achieving a 64% match with NDMS inundation points. (2) The trained SVM model was verified by comparing its predictions against FLO-2D results generated using a 3-hour Huff-distributed rainfall scenario. The SVM model showed strong performance with R = 0.988, NSE = 0.987, % difference = 1.080, and RMSE = 0.098 m. The results confirm that integrating machine learning with physical simulation can provide fast and reliable flood predictions, supporting timely disaster response in urban areas.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12397246 | PMC |
| http://dx.doi.org/10.1038/s41598-025-17090-2 | DOI Listing |
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