上海城市火灾风险动态与缓解策略:空间分析与博弈论的结合

Land Pub Date : 2024-07-24 DOI:10.3390/land13081125
Manqing Yao, Deshun Zhang, Yingying Chen, Yujia Liu, M. Elsadek
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引用次数: 0

摘要

近几十年来,在城市功能提升和气候变化的推动下,城市火灾的发生频率越来越高,对大都市的可持续发展构成了越来越大的威胁。本研究调查了 2019 年至 2023 年上海火灾事故的时空特征。利用卫星火灾点数据和政府官方记录,采用核密度分析和小波分析对火灾数据的时间序列和空间分布进行分析。随后,确定了影响城市火灾发生的 11 个主要因素,包括概率、区域特征和危险源。采用主观和客观权重与博弈论相结合的方法,生成了 1 × 1 平方公里网格尺度的火灾风险评估。此外,还分析了评估的空间分布特征。结果显示,就空间域而言,市中心区的城市火灾强度最高,而郊区的火灾强度则有所下降。从时间上看,火灾频率在 18a 时间尺度上表现出明显的周期性,而在 16-22a 时间尺度上则观察到明显的季节性波动和周期性,春季和冬季火灾发生率较高。研究发现了典型的城市火灾聚集模式,其高风险中心位于上海市中心。考虑到气候变化和人类活动的影响,高风险区域可能会逐渐扩大到邻近的城市郊区,这将是一个令人担忧的未来情景。本研究通过考察城市绿化系统中 "可燃物和防火空间 "的双重属性,为未来上海绿化系统的防灾减灾策略提出建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Urban Fire Risk Dynamics and Mitigation Strategies in Shanghai: Integrating Spatial Analysis and Game Theory
In recent decades, the increasing frequency of urban fires, driven by urban functional enhancements and climate change, has posed a growing threat to metropolitan sustainability. This study investigates the temporal and spatial characteristics of fire incidents in Shanghai from 2019 to 2023. Using satellite fire point data and official government records, kernel density analysis and wavelet analysis were employed to analyze the time series and spatial distribution of fire data. Subsequently, eleven primary factors influencing urban fire occurrence were identified, encompassing probability, regional characteristics, and hazard sources. A combined methodology of subjective and objective weights with game theory was used to generate a fire risk assessment at a 1 × 1 km2 grid scale. Furthermore, the spatial distribution characteristics of the assessments were analyzed. The results reveal that the downtown area exhibits the highest intensity of urban fires in terms of spatial domain, with a decreasing intensity towards the suburbs. Temporally, fire frequency demonstrates significant periodicity at an 18a time scale, while clear seasonal fluctuations and periodicity are observed at a 16-22a time scale, with higher occurrences in spring and winter. The study identifies typical aggregation patterns of urban fires, with high-risk centers in downtown Shanghai. Considering the impact of climate change and human activities, high-risk areas may gradually expand to adjacent urban suburbs, presenting a concerning future scenario. By examining the dual attributes of “combustibles and fireproof space” within urban greening systems, this research offers recommendations for the future strategies of disaster prevention and mitigation of green systems in Shanghai.
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