• DocumentCode
    3610339
  • Title

    A Two-Way Arterial Signal Coordination Method With Queueing Process Considered

  • Author

    Bao-Lin Ye ; Weimin Wu ; Weijie Mao

  • Author_Institution
    Nat. Lab. of Ind. Control Technol., Zhejiang Univ., Hangzhou, China
  • Volume
    16
  • Issue
    6
  • fYear
    2015
  • Firstpage
    3440
  • Lastpage
    3452
  • Abstract
    Arterial signal coordination based on a bandwidth criterion is one of the most effective and important signal coordination strategies for urban traffic signal control. In this paper, we propose a coordination methodology for arterial traffic signal control based on a novel two-way bandwidth maximization model. One of the important features of our method is that the queueing process has been considered. Different from most existing models in which the queue clearing time was neglected or artificially set by experienced engineers, the queue clearing time in our model is calculated based on the explicitly estimated queue length of each approach of the coordinated arterial road before the green light starts at each cycle. In addition, to achieve better coordination performance, not only the phases that provide right of way to coordinated directions but also the phases that provide the right of way to uncoordinated directions are considered during the optimization of phase sequences. The effectiveness and efficiency of the proposed method are validated via simulations on VISSIM. Experimental results illustrate that the proposed method can efficiently reduce the average delay, the average queue length, and the average number of stops per vehicle on arterial roads while not impacting the overall performance of the road network.
  • Keywords
    delays; optimisation; queueing theory; road traffic control; VISSIM; arterial roads; arterial traffic signal control; bandwidth criterion; delay reduction; phase sequence optimization; queue clearing time; queue length; queueing process; road network performance; two-way arterial signal coordination method; two-way bandwidth maximization model; urban traffic signal control; vehicle stops; Bandwidth; Numerical models; Optimization; Queueing analysis; Arterial traffic signal coordination; bandwidth maximization; phase sequences optimization;
  • fLanguage
    English
  • Journal_Title
    Intelligent Transportation Systems, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1524-9050
  • Type

    jour

  • DOI
    10.1109/TITS.2015.2461493
  • Filename
    7328307