Due to the effects of capacity differences and other factors, congestion may occur at local nodes of a network. This situation reduces the reliability of the network and leads to regional deadlock. To improve system stability and reduce the influence of local road network heterogeneity on traffic efficiency, a macroscopic fundamental diagram (MFD) model of a nonuniform density road network is proposed. Second, based on the MFD model, a two-level strategy for H∞ perimeter control and traffic flow regulation is proposed. The upper layer uses an H∞ controller to adjust the inflow at the boundary of congested region. The lower layer uses a traffic density regulator (TDR) inside the region. Finally,a simulation is conducted to compare with traditional H∞ control, bang-bang-TDR, PI-TDR and MPC-TDR strategy. The results show that the H∞-TDR strategy proposed in this paper can improve operation efficiency and reduce delay in network.


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    Title :

    Combination of H∞ perimeter control and route guidance for heterogeneous urban road networks


    Additional title:

    TRANSPORTMETRICA B: TRANSPORT DYNAMICS
    Y. QIAN ET AL.


    Contributors:
    Qian, Yu (author) / Ding, Heng (author) / Meng, Yuanhao (author) / Zheng, Nan (author) / Di, Yunran (author) / Zheng, Xiaoyan (author)


    Publication date :

    2024-12-31


    Size :

    32 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English