Litcius/Paper detail

Flood Hazard Assessment in Australian Tropical Cyclone-Prone Regions

Michael Kaspi, Yuriy Kuleshov

2023Climate12 citationsDOIOpen Access PDF

Abstract

This study investigated tropical cyclone (TC)-induced flooding in coastal regions of Australia due to the impact of TC Debbie in 2017 utilising a differential evolution-optimised random forest to model flood susceptibility in the region of Bowen, Airlie Beach, and Mackay in North Queensland. Model performance was evaluated using a receiver operating characteristic curve, which showed an area under the curve of 0.925 and an overall accuracy score of 80%. The important flood-influencing factors (FIFs) were investigated using both feature importance scores and the SHapely Additive exPlanations method (SHAP), creating a flood hazard map of the region and a map of SHAP contributions. It was found that the elevation, slope, and normalised difference vegetation index were the most important FIFs overall. However, in some regions, the distance to the river and the stream power index dominated for a similar flood hazard susceptibility outcome. Validation using SHAP to test the physical reasoning of the model confirmed the reliability of the flood hazard map. This study shows that explainable artificial intelligence allows for improved interpretation of model predictions, assisting decision-makers in better understanding machine learning-based flood hazard assessments and ultimately aiding in mitigating adverse impacts of flooding in coastal regions affected by TCs.

Topics & Concepts

Flood mythFlooding (psychology)Environmental scienceHazard analysisTropical cycloneHazardHydrology (agriculture)Elevation (ballistics)100-year floodClimatologyCyclone (programming language)Physical geographyMeteorologyGeographyGeologyComputer scienceEngineeringGeotechnical engineeringEcologyArchaeologyAerospace engineeringField-programmable gate arrayBiologyComputer hardwarePsychologyStructural engineeringPsychotherapistTropical and Extratropical Cyclones ResearchFlood Risk Assessment and ManagementHydrological Forecasting Using AI