用于交通流量预测的多注意门控时序图卷积神经网络

Xiaohui Huang, Junyang Wang, Yuan Jiang, Yuanchun Lan
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摘要

实时、准确的交通流预测在交通系统中起着至关重要的作用,对城市交通规划、交通管理、交通控制等具有重要意义。交通流量预测中最困难的挑战是如何提取节点的时间特征和空间相关性。同时,在现有方法中,图卷积网络在提取关系空间依赖性方面表现出色。然而,仅靠图卷积很难准确挖掘交通网络中隐藏的时空特征。在本文中,我们提出了一种多注意门控时空图卷积网络(MATGCN),用于准确预测交通流量。首先,我们提出了一种门控多模态时空卷积(MTCN)来处理原始交通数据的长期序列。然后,我们使用高效的信道注意模块(ECA)来提取时间特征。针对交通道路空间结构的复杂性,我们开发了多注意力图卷积模块(MAGCN),包括图卷积和图注意力,以进一步提取道路网络的空间特征。最后,我们在多个公共交通数据集上进行了大量实验,实验结果表明我们提出的算法优于现有方法。
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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Multi-attention gated temporal graph convolution neural Network for traffic flow forecasting

Real-time and accurate traffic flow forecasting plays a crucial role in transportation systems and holds great significance for urban traffic planning, traffic management, traffic control, and more. The most difficult challenge is the extraction of temporal features and spatial correlations of nodes in traffic flow forecasting. Meanwhile, graph convolutional networks has shown good performance in extracting relational spatial dependencies in existing methods. However, it is difficult to accurately mine the hidden spatial-temporal features of the traffic network by using graph convolution alone. In this paper, we propose a multi-attention gated temporal graph convolution network (MATGCN) for accurately forecasting the traffic flow. Firstly, we propose a gated multi-modal temporal convolution(MTCN) to handle the long-term series of the raw traffic data. Then, we use an efficient channel attention module(ECA) to extract temporal features. For the complexity of the spatial structure of traffic roads, we develop multi-attention graph convolution module (MAGCN)including graph convolution and graph attention to further extract the spatial features of a road network. Finally, extensive experiments are carried out on several public traffic datasets, and the experimental results show that our proposed algorithm outperforms the existing methods.

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