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Autori principali: Ge, Hangli, Yang, Xiaojie, Chen, Jinyu, Flammini, Francesco, Koshizuka, Noboru
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.05078
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author Ge, Hangli
Yang, Xiaojie
Chen, Jinyu
Flammini, Francesco
Koshizuka, Noboru
author_facet Ge, Hangli
Yang, Xiaojie
Chen, Jinyu
Flammini, Francesco
Koshizuka, Noboru
contents This paper introduces a traffic evacuation model for railway disruptions to improve resilience. The research focuses on the problem of failure of several nodes or lines on the railway network topology. We proposed a holistic approach that integrates lines of various operator companies as well as external geographical features of the railway system. The optimized evacuation model was mathematically derived based on matrix computation using nonlinear programming. The model also takes into account the capacity of the surrounding evacuation stations, as well as the travel cost. Moreover, our model can flexibly simulate disruptions at multiple stations or any number of stations and lines, enhancing its applicability. We collected the large-scale railway network of the Greater Tokyo area for experimentation and evaluation. We simulated evacuation plans for several major stations, including Tokyo, Shinjuku, and Shibuya. The results indicate that the evacuation passenger flow (EPF) and the average travel time (ATT) during emergencies were optimized, staying within both the capacity limits of the targeted neighboring stations and the disruption recovery time.
format Preprint
id arxiv_https___arxiv_org_abs_2503_05078
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Traffic Evacuation Model for Enhancing Resilience During Railway Disruption
Ge, Hangli
Yang, Xiaojie
Chen, Jinyu
Flammini, Francesco
Koshizuka, Noboru
Numerical Analysis
This paper introduces a traffic evacuation model for railway disruptions to improve resilience. The research focuses on the problem of failure of several nodes or lines on the railway network topology. We proposed a holistic approach that integrates lines of various operator companies as well as external geographical features of the railway system. The optimized evacuation model was mathematically derived based on matrix computation using nonlinear programming. The model also takes into account the capacity of the surrounding evacuation stations, as well as the travel cost. Moreover, our model can flexibly simulate disruptions at multiple stations or any number of stations and lines, enhancing its applicability. We collected the large-scale railway network of the Greater Tokyo area for experimentation and evaluation. We simulated evacuation plans for several major stations, including Tokyo, Shinjuku, and Shibuya. The results indicate that the evacuation passenger flow (EPF) and the average travel time (ATT) during emergencies were optimized, staying within both the capacity limits of the targeted neighboring stations and the disruption recovery time.
title A Traffic Evacuation Model for Enhancing Resilience During Railway Disruption
topic Numerical Analysis
url https://arxiv.org/abs/2503.05078