Abstract Numerous pedestrian simulation models have been proposed in the last decade, many of which simulate the movement behaviour of pedestrians microscopically. However, the numerous degrees of freedom of microscopic models complicate the calibration process severely. Moreover, the computation speed of many microscopic simulation models leaves much to be desired. Especially in cases where computation speed is essential and no microscopic data is available to calibrate the model, macroscopic models outperform microscopic models. This study provides a detailed assessment of the impact of the combination of delay and density within the formulation of the local route choice behaviour on the predicted movement dynamics of the crowd in a continuum model (Physica A 416:684–694, 2014 [9]; Transp Res Part C Emerg Technol 59:183–197, 2015 [10]). This study aims to understand how the parameters of the respective versions of the continuum model influence the development crowd movement phenomena. The impact of the parameter sets of the continuum model is assessed for a uni-directional bottleneck, uni-directional corner rounding, bidirectional straight walking and intersecting movements.


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    Title :

    Sensitivity Analysis of the Local Route Choice Parameters of the Continuum Model Regarding Pedestrian Movement Phenomena


    Contributors:

    Published in:

    Publication date :

    2016-01-01


    Size :

    8 pages




    Type of media :

    Article/Chapter (Book)


    Type of material :

    Electronic Resource


    Language :

    English





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