Affiliation:
1. School of Architecture and Art Design, Hebei University of Technology, Tianjin 300130, China
2. Urban Rural Renewal and Architectural Heritage Protection Center, Hebei University of Technology, Tianjin 300130, China
3. School of Architecture, Tianjin University, Tianjin 300072, China
Abstract
The frequency of urban disasters such as waterlogging has markedly increased, highlighting the urgent need to strengthen urban disaster prevention capabilities and resilience. This research, anchored in the resilience characteristics of robustness, redundancy, resource deploy ability, and rapid response, devised a resilience clustering factor system specifically designed for older urban districts. The old city district of Shijiazhuang, China, was selected as the empirical case study area. This research employs the K-Means++ clustering method to analyze the region’s resilience units against waterlogging. Furthermore, it utilizes the method of pedigree classification to categorize the identified ten types of resilience. Secondly, these were subsequently divided into three primary categories based on a spectrum of strengths and weaknesses within each unit: dominant, mixed, and disadvantaged clustering. This categorization unveiled the unique resilience distribution patterns within the area. The findings of this study reveal a pronounced differentiation in resilience types among the units in Shijiazhuang’s old city district. This spatial analysis highlighted a significant heterogeneity, with a tendency towards cluster formation. The spatial distribution of different resilience unit types was found to be uneven, leading to the emergence of clustered, patch-like, and zonal agglomerations. Combined with the unit clustering classification and the mean clustering performance of each factor, the response unit of waterlogging control resilience planning is determined for the study area, and the strategy of resilience waterlogging control and linkage is proposed. By mapping the spectrum of rainwater resilience types across the studied area, this research broadens the scope of resilience evaluation from a traditional vertical-level assessment to a more comprehensive horizontal typological analysis, offering empirical, theoretical insights for future resilience-building endeavors in older urban districts.
Funder
Humanities and Social Science Research Project of Hebei Education Department
Reference62 articles.
1. Research on modeling method of urban rain and flood simulation based on SWMM model;Xu;Water Resour. Plan. Des.,2021
2. Progress on disaster mechanism and risk assessment of urban flood/waterlogging disasters in China;Xu;Adv. Water Sci.,2020
3. Research on urban waterlogging risk prediction based on the coupling of the BP neural network and SWMM model;Zhang;J. Water Clim. Chang.,2023
4. Building urban flood resilience through institutional adaptive capacity: A case study of Seoul, South Korea;Ro;Int. J. Disaster Risk Reduct.,2023
5. Urban hazard mitigation: Creating resilient cities;Godschalk;Nat. Hazards Rev.,2003