Spatio-Temporal Heterogeneous Graph-Based Convolutional Networks for Traffic Flow Forecasting

Zhaobin Ma, Zhiqiang Lv, Xiaoyang Xin, Zesheng Cheng, Fengqian Xia, Jianbo Li
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Abstract

Traffic flow forecasting plays a crucial role in the construction of intelligent transportation. The aims of this paper are to fully exploit the spatial correlation between nodes in a traffic network and to compensate for the inability of graph-based deep learning methods to model multiple relationship types, resulting in inadequate extraction of spatially correlated information about the traffic network. In this paper, we propose a deep spatio-temporal recurrent evolution network based on the graph convolution network (STREGCN) for heterogeneous graphs. Specifically, we transform the traffic network into a multi-relational heterogeneous graph to improve the information representation of the graph. This allows our model to capture multiple types of spatially relevant information. In the temporal dimension, we use one-dimensional causal convolution based on the gated linear unit to extract the temporal correlation information of the traffic flow. In addition, we designed the output of the spatio-temporal convolution module to obtain the final traffic flow predictions after a fully connected layer. Experiments on real datasets illustrate the effectiveness of the proposed STREGCN model and show the importance of representing information through heterogeneous graphs for the task of traffic flow prediction.
用于交通流量预测的时空异构图卷积网络
交通流量预测在智能交通建设中起着至关重要的作用。本文旨在充分利用交通网络中节点间的空间相关性,弥补基于图的深度学习方法无法对多种关系类型进行建模,导致对交通网络空间相关信息提取不足的问题。本文提出了一种基于异构图卷积网络(STREGCN)的深度时空递归演化网络。具体来说,我们将交通网络转化为多关系异构图,以改进图的信息表示。这使得我们的模型能够捕捉到多种类型的空间相关信息。在时间维度上,我们使用基于门控线性单元的一维因果卷积来提取交通流的时间相关信息。此外,我们还设计了时空卷积模块的输出,以便在全连接层之后获得最终的交通流预测结果。在真实数据集上的实验说明了所提出的 STREGCN 模型的有效性,并显示了通过异构图来表示信息对于交通流预测任务的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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