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Enhancing urban resilience through machine learning-supported flood risk assessment: integrating flood susceptibility with building function vulnerability

Xiaoling Qin, Shifu Wang, Meng Meng, Long Haiyan, Huilan Zhang, Haochen Shi

2025npj Urban Sustainability32 citationsDOIOpen Access PDF

Abstract

Urban flooding threatens urban resilience and challenges SDGs 11 and 13. This study assesses urban building flood risk in Guangzhou by integrating flood susceptibility with building function vulnerability. Using a Random Forest (RF) model, it predicts flood susceptibility based on flood records, hydrological, topographical, and anthropogenic features. The Categorical Boosting (CatBoost) model identifies building functions using POI and AOI data. Results reveal significant spatial variations: central districts exhibit higher flood susceptibility, while peripheral areas remain less affected. Over half of the buildings are moderately vulnerable, with only a small fraction highly vulnerable. Based on flood susceptibility and functional vulnerability, Guangzhou is classified into three district types: central urban (Type I), intermediate urban (Type II), and suburban/rural (Type III). The study underscores the need for tailored flood risk management strategies to address these disparities and mitigate climate change-induced water hazards.

Topics & Concepts

Flood mythResilience (materials science)Vulnerability (computing)Function (biology)Environmental planningVulnerability assessmentEnvironmental resource managementRisk analysis (engineering)Psychological resilienceGeographyComputer scienceEnvironmental scienceBusinessPsychologyComputer securitySocial psychologyPhysicsEvolutionary biologyArchaeologyThermodynamicsBiologyFlood Risk Assessment and ManagementTropical and Extratropical Cyclones ResearchHydrology and Drought Analysis
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