Keywords
Evaluation indicators
Assessment methods
Influencing factors
Submitted : 2026-02-15
Accepted : 2026-03-02
Published : 2026-03-17
Abstract
With the acceleration of global climate change and urbanization, the risk of urban disasters is increasing, and the research on urban disaster resilience has gradually become an important direction in the field of disaster prevention and mitigation. This article systematically reviews the evolution of the concept of urban disaster resilience and its characteristic connotations, analyzes the current mainstream evaluation index framework and assessment methods, and summarizes the key factors affecting urban disaster resilience from aspects such as economic development, infrastructure, urban governance, social development, and the environment. Urban disaster resilience is the result of the coordinated action of multiple systems and has dynamic and complex characteristics. Future research should strengthen the application of dynamic simulation to enhance the capacity of urban disaster risk management and disaster prevention and mitigation.
References
Holling S, 1973, Resilience and Stability of Ecological Systems. Annual Review of Ecology & Systematics, 4(1): 1–23.
Miao H, Wang N, Wang Y, et al., 2021, An Urban Resilience Measurement System Based on Decomposing Post-Disaster Recovery Process. Journal of Natutal Disasters, 30(1): 10–27.
Bruneau M, Chang S, Eguchi R, et al., 2003, A Framework to Quantitatively Assess and Enhance the Seismic Resilience of Communities. Earthquake Spectra, 19(4): 733–752.
Sharifi A, Yamagata Y, 2016, On the Suitability of Assessment Tools for Guiding Communities Towards Disaster Resilience. International Journal of Disaster Risk Reduction, 2016(18): 115–124.
Norris F, Stevens S, Pfefferbaum B, et al., 2008, Community Resilience as a Metaphor, Theory, Set of Capacities, and Strategy for Disaster Readiness. American Journal of Community Psychology, 41(1): 127–150.
Li Y, Zhai G, 2017, China’s Urban Disaster Resilience Evaluation And Promotion. Planners, 33(8): 5–11.
Xu Z, Tian J, Zhang J, 2019, Urban Resilience Evaluation System and Optimization Strategy from Perspective of Disaster Prevention. China Safety Science Journal, 29(3): 1–7.
Fang D, Li Z, Li N, et al., 2017, Urban Resilience: A Perspective of System of Systems in Trio Spaces. China Civil Engineering Journal, 50(7): 1–7.
Zhou M, Shang Z, Cai Z, et al., 2023, Assessment of Urban Flood Disaster Resilience in Guangdong Province Based on VIKOR Method. Journal of Catastrophology, 38(1): 206–212.
Jiao L, Deng J, Wu Y, et al., 2022, Evaluation of Urban Resilience Based on PSR+Cloud Model. Ecological Economy, 38(5): 114–120.
Zhao D, Chen C, Yi L, et al., 2022, Research on Comprehensive Assessment Model of Urban Resilience with Multi-Factor. Journal of Safety Science and Technology, 18(5): 54–59.
Hu Z, Wang X, Zhang J, et al., 2021, Urban Resilience Evaluation System and Enhancement Strategies. Macroeconomic Management, 2021(11): 72–77.
Chen C, Chen Y, Shi B, et al., 2018, An Model for Evaluating Urban Resilience to Rainstorm Flood Disaster. China Safety Science Journal, 28(4): 1–6.
Chen X, Lou J, Wang Y, 2020, Evolution and Dynamic Simulation of the Temporal-Spatial Pattern of Urban Resilience in Harbin-Changchun Urban Group. Scientia Geographica Sinica, 40(12): 2000–2009.
Meng X, Chen X, Chen J, et al., 2023, Application of Combination Weighting and TOPSIS in the Assessment of Urban Regional Resilience under Flood Disaster. Journal of Safety and Environment, 23(5): 1465–1473.
Huang J, She J, Yuan X, et al., 2020, Simulation of Urban Flood Resilience Based on a System Dynamic Model: A Case Study in Nanjing. Resources and Environment in the Yangtze Basin, 29(11): 2519–2529.
Yang X, Jia Y, Weng G, et al., 2020, A Study on System Dynamics of the Resilience of Urban Tourism Environment System:A Case Study of Lanzhou City. Tourism Science, 34(2): 23–40.