Abstract Lane changing dynamics are an important part of traffic microsimulation and are vital for modeling weaving sections and merge bottlenecks. However, there is often much more emphasis placed on car following and gap acceptance models, whereas lane changing dynamics such as tactical, cooperation, and relaxation models receive comparatively little attention. This paper develops a general relaxation model which can be applied to an arbitrary parametric or nonparametric microsimulation model. The relaxation model modifies car following dynamics after a lane change, when vehicles can be far from equilibrium. Relaxation prevents car following models from reacting too strongly to the changes in space headway caused by lane changing, leading to more accurate and realistic simulated trajectories. We also show that relaxation is necessary for correctly simulating traffic breakdown with realistic values of capacity drop.

    Highlights Our general relaxation model can be applied to an arbitrary car following model. Relaxation helps prevent unrealistic car following trajectories around lane changes. Validation is performed using the IDM, OVM, Newell model, and a neural network model. Our model reproduces realistic capacity drop and shockwaves for a merge bottleneck.


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    Title :

    A formulation of the relaxation phenomenon for lane changing dynamics in an arbitrary car following model


    Contributors:


    Publication date :

    2021-02-27




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




    Relaxation Phenomenon after Lane Changing

    Leclercq, Ludovic / Chiabaut, Nicolas / Laval, Jorge et al. | Transportation Research Record | 2007