This study focuses on utilizing multi-source data for metro passenger flow prediction in a practically and computationally efficient way. To further improve the accuracy and reliability of passenger prediction, a deep learning-based framework is proposed in this paper considering the practical interference of neighbor spatial dependence and train events, namely a multi-disturbance spatial-temporal causal convolution network (MD-STCN). Specifically, the passenger flow features and train event features of adjacent areas are constructed as initial input to the approach through feature modelling and data fusion. Furthermore, a two-stage spatio-temporal feature selection algorithm is developed to obtain a compact input. Finally, four datasets from Shanghai Metro are tested to verify the validity and feasibility of our MD-STCN.


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    Title :

    MD-STCN: A deep learning-based architecture considering multivariate disturbances for metro passenger flow prediction


    Contributors:
    Xiu, Cong (author) / Zhan, Shuguang (author) / Peng, Qiyuan (author)


    Publication date :

    2022-10-08


    Size :

    497600 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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