Spatiotemporal fuzzy-graph convolutional network model with dynamic feature encoding for traffic forecasting
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摘要
Accurate traffic forecasting is challenging, owing to the complex spatial dependence of traffic networks and the dynamic time dependence of traffic patterns. In this study, a novel spatiotemporal fuzzy-graph convolutional network model with dynamic feature encoding is proposed to realize accurate traffic forecasting. The proposed model combines graph convolutional network and long short-term memory network to extract complicated spatiotemporal dependence features of traffic data. Furthermore, a new graph generation method based on the fuzzy C-means clustering is designed to enhance the representation ability of the spatial dependencies between stations in a traffic network. Moreover, to make the graph convolutional network fully consider both global and local spatiotemporal dependency relationship between the stations in the process of convolution operation, a new node feature construction method is proposed. Finally, the forecasting performance of the proposed model is verified on three real-world traffic datasets. The experimental results demonstrate that the proposed model outperforms other baseline models in terms of both spatiotemporal feature extraction and long short-term forecasting.
论文关键词:Traffic forecasting,Graph convolutional networks,Fuzzy C-means,Long short-term memory network
论文评审过程:Received 3 May 2021, Revised 4 July 2021, Accepted 14 August 2021, Available online 24 August 2021, Version of Record 1 September 2021.
论文官网地址:https://doi.org/10.1016/j.knosys.2021.107403