A Flood Mapping Method for Land Use Management in Small-Size Water Bodies: Validation of Spectral Indexes and a Machine Learning Technique

Abstract: The assessment of flood disasters is considered an essential factor in land use management, being necessary to understand and define the magnitude of past events. In this regard, several flood diagnoses have been developed using Sentinel-2 multispectral imagery, especially in large water bodies. However, one of the main challenges is still related to floods, where water surfaces have sizes similar to the spatial resolution of the analyzed satellite images, being difficult to detect and map. Therefore, the pres… Show more

“…As per the Boruta ranking, factors such as elevation, soil moisture, slope, TRI, LULC, NDVI, NDFI, and rainfall were the most influential factors causing floods in the region. The proximity of the riverbank causes a large amount of sediment load and generates runoff with higher water depth, mostly responsible for flood inundation incidents during torrential rainfall [51]. However, vegetation cover reduces soil erosion and sediment-free runoff, and soil moisture availability assists in the reduction in the number of flood occurrences [52].…”

Spatial Analysis of Flood Hazard Zoning Map Using Novel Hybrid Machine Learning Technique in Assam, India

“…As per the Boruta ranking, factors such as elevation, soil moisture, slope, TRI, LULC, NDVI, NDFI, and rainfall were the most influential factors causing floods in the region. The proximity of the riverbank causes a large amount of sediment load and generates runoff with higher water depth, mostly responsible for flood inundation incidents during torrential rainfall [51]. However, vegetation cover reduces soil erosion and sediment-free runoff, and soil moisture availability assists in the reduction in the number of flood occurrences [52].…”

Spatial Analysis of Flood Hazard Zoning Map Using Novel Hybrid Machine Learning Technique in Assam, India

An integrated approach for urban flood risk prediction using AHP-TOPSIS model: a case study of Jaipur region

Hydrogeomorphological approach for flood analyses at high- detailed scale: Narrow rivers with broad complex alluvial plains