公交地铁双层网络应对极端天气事件的复原力优化

IF 7.3 1区 工程技术 Q1 ENVIRONMENTAL STUDIES
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引用次数: 0

摘要

鉴于公共汽车和地铁系统的复杂性和相互关联性日益增加,其抵御极端天气事件的能力是城市规划中的一个关键问题。传统的研究往往简化或忽略了不同交通方式之间的相互依存关系,只关注单一交通方式的恢复策略,以提高系统的恢复能力。本研究提出了公交和地铁系统的综合复原力评估框架,将其概念化为公交地铁双层网络(B-M DLN)。该框架同时考虑了网络结构和系统功能,以准确评估 B-M DLN 的弹性。建立了基于遗传算法(GA)的 B-M DLN 弹性优化模型,提出了受损车站的最佳恢复顺序,强调了车站修复时间、节点强度和节点度在恢复优先级中的重要性。通过对中国西安市的案例分析,当应用最优恢复策略时,B-M DLN 显示出显著增强的恢复能力,尤其是在大规模故障情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Resilience optimization of bus-metro double-layer network against extreme weather events

The resilience of bus and metro systems to extreme weather events is a critical concern in urban planning, given their growing complexity and interconnectivity. Traditional studies often simplify or overlook the interdependency between different transportation modes, focusing on recovery strategies for a single mode to enhance system resilience. This study proposes an integrated resilience assessment framework for bus and metro systems, conceptualized as a Bus-Metro Double-Layer Network (B-M DLN). The framework considers both network structure and system function to accurately evaluate the B-M DLN resilience. A resilience optimization model for B-M DLN based on Genetic Algorithm (GA) is established to suggest the optimal recovery sequence of damaged stations, emphasizing the importance of station repair time, node strength, and node degree in recovery prioritization. Through a case analysis of Xi’an City, China, the B-M DLN shows significantly enhanced resilience when applying the optimal recovery strategy, especially in large-scale failure scenarios.

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来源期刊
CiteScore
14.40
自引率
9.20%
发文量
314
审稿时长
39 days
期刊介绍: Transportation Research Part D: Transport and Environment focuses on original research exploring the environmental impacts of transportation, policy responses to these impacts, and their implications for transportation system design, planning, and management. The journal comprehensively covers the interaction between transportation and the environment, ranging from local effects on specific geographical areas to global implications such as natural resource depletion and atmospheric pollution. We welcome research papers across all transportation modes, including maritime, air, and land transportation, assessing their environmental impacts broadly. Papers addressing both mobile aspects and transportation infrastructure are considered. The journal prioritizes empirical findings and policy responses of regulatory, planning, technical, or fiscal nature. Articles are policy-driven, accessible, and applicable to readers from diverse disciplines, emphasizing relevance and practicality. We encourage interdisciplinary submissions and welcome contributions from economically developing and advanced countries alike, reflecting our international orientation.
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