Basing on the real-time dynamic data in condition of connected vehicles, the paper optimized the BPR impedance function model, built a more reasonable control model on the real-time dynamic reversible lane. For avoiding the conflict between light and heavy traffic flow, a buffer zone setting model is proposed, which improves the operation safety of the real-time dynamic reversible lane. Finally, the scheme was verified through VISSIM simulation by taking Xiangyu avenue of Huai’an City as the example. The results show that, for the 3.2 km section, the average travel time in the direction of heavy traffic flow decreases by 3.4%, and the total travel time decreases by 550.8 min after using the real-time dynamic reversible lane, while the average travel time in the direction of light traffic flow is basically the same. The real-time dynamic reversible lane could not only overcome the shortcomings of traditional tidal lane, but also reduce the total travel time of vehicles effectively, and greatly improve the traffic efficiency of the road network.


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    Title :

    Control Model Constructing on Real-Time Dynamic Reversible Lane in Condition of Connected Vehicle


    Contributors:
    Mao, Lina (author) / Li, Wenquan (author) / Hu, Pengsen (author) / Zhou, Guiliang (author) / Zhang, Huiting (author) / Zheng, Guichuan (author)

    Conference:

    20th COTA International Conference of Transportation Professionals ; 2020 ; Xi’an, China (Conference Cancelled)


    Published in:

    CICTP 2020 ; 789-801


    Publication date :

    2020-12-09




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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