Highlights The unique characteristics of OD flow prediction in the urban railway transit are summarized in detail. An inflow/outflow-gated mechanism is developed to aggregate historical OD flow information and real-time inflow information. A split CNN model is introduced to convert the sparse OD flow information to dense and useful features. A masked loss function is proposed based on the OD attraction degree (ODAD) indicator to handle small or zero OD flows.

    Abstract Short-term origin–destination (OD) flow prediction in urban rail transit (URT) plays a crucial role in smart and real-time URT operation and management. Different from other short-term traffic forecasting methods, the short-term OD flow prediction possesses three unique characteristics: (1) data availability: real-time OD flow is not available during the prediction; (2) data dimensionality: the dimension of the OD flow is much higher than the cardinality of transportation networks; (3) data sparsity: URT OD flow is spatiotemporally sparse. There is a great need to develop novel OD flow forecasting method that explicitly considers the unique characteristics of the URT system. To this end, a channel-wise attentive split–convolutional neural network (CAS-CNN) is proposed. The proposed model consists of many novel components such as the channel-wise attention mechanism and split CNN. In particular, an inflow/outflow-gated mechanism is innovatively introduced to address the data availability issue. We further originally propose a masked loss function to solve the data dimensionality and data sparsity issues. The model interpretability is also discussed in detail. The CAS–CNN model is tested on two large-scale real-world datasets from Beijing Subway, and it outperforms the rest of benchmarking methods. The proposed model contributes to the development of short-term OD flow prediction, and it also lays the foundations of real-time URT operation and management.


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    Titel :

    Short-term origin-destination demand prediction in urban rail transit systems: A channel-wise attentive split-convolutional neural network method


    Beteiligte:
    Zhang, Jinlei (Autor:in) / Che, Hongshu (Autor:in) / Chen, Feng (Autor:in) / Ma, Wei (Autor:in) / He, Zhengbing (Autor:in)


    Erscheinungsdatum :

    2020-12-13




    Medientyp :

    Aufsatz (Zeitschrift)


    Format :

    Elektronische Ressource


    Sprache :

    Englisch