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    A deep learning traffic flow prediction framework based on multi-channel graph convolution

    New search for: Zhao, Yuanmeng
    New search for: Cao, Jie
    New search for: Zhang, Hong
    New search for: Liu, Zongli

    Accurate and timely traffic flow prediction is a critical part of the steps to alleviate traffic congestion. Fully considering the spatial–temporal dependencies of traffic flow is the key to accurately predicting traffic flow. Addressing the problem that traditional methods are difficult to capture the complex spatial–temporal dependence of urban traffic flow, and therefore cannot meet the accuracy requirements for medium and long-term prediction tasks, this paper uses Graph Convolution (GCN) and Long Short-Term Memory (LSTM) methods to capture time and space dependence through data analysis, and proposes a new type of deep learning model MCGC-LSTM. GCN is utilized to learn spatial dependence by analyzing the topological structure of an urban road traffic network, while LSTM is utilized to learn temporal dependence by analyzing the dynamic changes of traffic flow. The experimental results based on a real data set show that this method can achieve better prediction accuracy.

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    A deep learning traffic flow prediction framework based on multi-channel graph convolution

    New search for: Zhao, Yuanmeng
    New search for: Cao, Jie
    New search for: Zhang, Hong
    New search for: Liu, Zongli

    Accurate and timely traffic flow prediction is a critical part of the steps to alleviate traffic congestion. Fully considering the spatial–temporal dependencies of traffic flow is the key to accurately predicting traffic flow. Addressing the problem that traditional methods are difficult to capture the complex spatial–temporal dependence of urban traffic flow, and therefore cannot meet the accuracy requirements for medium and long-term prediction tasks, this paper uses Graph Convolution (GCN) and Long Short-Term Memory (LSTM) methods to capture time and space dependence through data analysis, and proposes a new type of deep learning model MCGC-LSTM. GCN is utilized to learn spatial dependence by analyzing the topological structure of an urban road traffic network, while LSTM is utilized to learn temporal dependence by analyzing the dynamic changes of traffic flow. The experimental results based on a real data set show that this method can achieve better prediction accuracy.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    A deep learning traffic flow prediction framework based on multi-channel graph convolution

    New search for: Zhao, Yuanmeng
    New search for: Cao, Jie
    New search for: Zhang, Hong
    New search for: Liu, Zongli

    Accurate and timely traffic flow prediction is a critical part of the steps to alleviate traffic congestion. Fully considering the spatial–temporal dependencies of traffic flow is the key to accurately predicting traffic flow. Addressing the problem that traditional methods are difficult to capture the complex spatial–temporal dependence of urban traffic flow, and therefore cannot meet the accuracy requirements for medium and long-term prediction tasks, this paper uses Graph Convolution (GCN) and Long Short-Term Memory (LSTM) methods to capture time and space dependence through data analysis, and proposes a new type of deep learning model MCGC-LSTM. GCN is utilized to learn spatial dependence by analyzing the topological structure of an urban road traffic network, while LSTM is utilized to learn temporal dependence by analyzing the dynamic changes of traffic flow. The experimental results based on a real data set show that this method can achieve better prediction accuracy.

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    Title:

    A deep learning traffic flow prediction framework based on multi-channel graph convolution

    Contributors:

    Zhao, Yuanmeng (author) / Cao, Jie (author) / Zhang, Hong (author) / Liu, Zongli (author)

    Published in:

    Transportation Planning and Technology ; 44 ; 887-900

    Publication date:

    2021-11-17

    Size:

    14 pages

    ISSN:

    0308-1060 , 1029-0354

    DOI:

    https://doi.org/10.1080/03081060.2021.1992180

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Traffic flow , deep learning , graph convolution (GCN) , Long Short-Term Memory (LSTM) , spatial-temporal features

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