Traffic Signal Optimisation in Disrupted Networks with Re-Routing

被引:4
|
作者
Abudayyeh, Dana [1 ]
Ngoduy, Dong [1 ]
Nicholson, Alan [1 ]
机构
[1] Univ Canterbury, Dept Civil & Nat Resources Engn, Christchurch 8140, New Zealand
来源
INTERNATIONAL SYMPOSIUM OF TRANSPORT SIMULATION (ISTS'18) AND THE INTERNATIONAL WORKSHOP ON TRAFFIC DATA COLLECTION AND ITS STANDARDIZATION (IWTDCS'18) - EMERGING TRANSPORT TECHNOLOGIES FOR NEXT GENERATION MOBILITY | 2018年 / 34卷
关键词
Disrupted road network; network reliability; Cross Entropy method; traffic signal optimisation; quasi-dynamic; resilience; VULNERABILITY; RESILIENCE; FRAMEWORK; MODELS;
D O I
10.1016/j.trpro.2018.11.032
中图分类号
U [交通运输];
学科分类号
08 ; 0823 ;
摘要
This paper describes a modified bi-level framework to simulate disruptive events in urban road networks with different levels of disruption severity and duration. This framework combines the Cross Entropy method to optimise traffic signals and the quasi-dynamic user equilibrium assignment model embedded in SATURN software package. This enables simulation of short-term closures with less computational effort and running time than fully dynamic models. We have applied this model to the Cambridge (UK) network and demonstrated how the degradation at one node affects the optimal signal settings at that node and nearby nodes. The computational results show that for different disruption severities, as traffic starts to divert to other routes, the optimal traffic signal settings changes, to minimise the travel time. (C) 2018 The Authors. Published by Elsevier Ltd.
引用
收藏
页码:195 / 202
页数:8
相关论文
共 50 条
  • [1] Optimisation models for re-routing air traffic flows in Europe
    de Matos, PL
    Chen, B
    Ormerod, RJ
    [J]. JOURNAL OF THE OPERATIONAL RESEARCH SOCIETY, 2001, 52 (12) : 1338 - 1349
  • [2] Flow Re-routing Based Traffic Engineering for SDN Networks
    Akyildiz, Hasan Anil
    Hokelek, Ibrahim
    Saygun, Ece
    Cirpan, Hakan Ali
    [J]. 2017 25TH SIGNAL PROCESSING AND COMMUNICATIONS APPLICATIONS CONFERENCE (SIU), 2017,
  • [3] Traffic signal optimisation in disrupted networks, to improve resilience and sustainability
    Abudayyeh, Dana
    Nicholson, Alan
    Ngoduy, Dong
    [J]. TRAVEL BEHAVIOUR AND SOCIETY, 2021, 22 : 117 - 128
  • [4] Re-routing in circuit switched networks
    Wong, EWM
    Chan, AKM
    Yum, TSP
    [J]. IEEE INFOCOM '97 - THE CONFERENCE ON COMPUTER COMMUNICATIONS, PROCEEDINGS, VOLS 1-3: SIXTEENTH ANNUAL JOINT CONFERENCE OF THE IEEE COMPUTER AND COMMUNICATIONS SOCIETIES - DRIVING THE INFORMATION REVOLUTION, 1997, : 1373 - 1379
  • [5] Re-routing Agents in an Abstract Traffic Scenario
    Bazzan, Ana L. C.
    Kluegl, Franziska
    [J]. ADVANCES IN ARTIFICIAL INTELLIGENCE - SBIA 2008, PROCEEDINGS, 2008, 5249 : 63 - +
  • [6] Streamlined Re-routing in Wireless Mesh Networks
    Varghese, Denny
    Kumar, P.
    [J]. 2012 THIRD INTERNATIONAL CONFERENCE ON COMPUTING COMMUNICATION & NETWORKING TECHNOLOGIES (ICCCNT), 2012,
  • [7] A novel method for re-routing in OBS networks
    Gjessing, Stein
    [J]. 2007 INTERNATIONAL SYMPOSIUM ON COMMUNICATIONS AND INFORMATION TECHNOLOGIES, VOLS 1-3, 2007, : 22 - 27
  • [8] A study of dynamic traffic re-routing in the national airspace system
    Bushey, DE
    Malloy, BA
    [J]. 30TH ANNUAL SIMULATION SYMPOSIUM, PROCEEDINGS, 1997, : 104 - 113
  • [9] Mobility prediction for re-routing strategy in drone networks
    Ganapaza, Angel Freddy
    Colosimo, Francesco
    [J]. UNMANNED SYSTEMS TECHNOLOGY XXVI, 2024, 13055
  • [10] Traffic variations caused by inter-domain re-routing
    Schwabe, T
    Gruber, C
    [J]. 5TH INTERNATIONAL WORKSHOP ON DESIGN OF RELIABLE COMMUNICATION NETWORKS, PROCEEDINGS: RELIABLE NETWORKS FOR RELIABLE SERVICES, 2005, : 287 - 293
12345