Graph transformer based dynamic multiple graph convolution networks for traffic flow forecasting

Yongli Hu; Ting Peng; Kan Guo; Yanfeng Sun; Junbin Gao; Baocai Yin

doi:10.1049/itr2.12378

IET Intelligent Transport Systems (Sep 2023)

Graph transformer based dynamic multiple graph convolution networks for traffic flow forecasting

Yongli Hu,
Ting Peng,
Kan Guo,
Yanfeng Sun,
Junbin Gao,
Baocai Yin

Affiliations

Yongli Hu: Beijing Key Laboratory of Multimedia and Intelligent Software Technology Beijing Institute of Artificial Intelligence Faculty of Information Technology Beijing University of Technology BeijingChina
Ting Peng: Beijing Key Laboratory of Multimedia and Intelligent Software Technology Beijing Institute of Artificial Intelligence Faculty of Information Technology Beijing University of Technology BeijingChina
Kan Guo: Beijing Key Laboratory of Multimedia and Intelligent Software Technology Beijing Institute of Artificial Intelligence Faculty of Information Technology Beijing University of Technology BeijingChina
Yanfeng Sun: Beijing Key Laboratory of Multimedia and Intelligent Software Technology Beijing Institute of Artificial Intelligence Faculty of Information Technology Beijing University of Technology BeijingChina
Junbin Gao: Discipline of Business Analytics The University of Sydney Business School The University of Sydney New South Wales Australia
Baocai Yin: Beijing Key Laboratory of Multimedia and Intelligent Software Technology Beijing Institute of Artificial Intelligence Faculty of Information Technology Beijing University of Technology BeijingChina

DOI: https://doi.org/10.1049/itr2.12378
Journal volume & issue: Vol. 17, no. 9
pp. 1835 – 1845

Abstract

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Abstract Traffic prediction is an important part of intelligent transportation system. Recently, graph convolution network (GCN) is introduced for traffic flow forecasting and achieves good performance due to its superiority of representing the graph traffic road structure network. Moreover, the dynamic GCN is put forward to model the temporal property of the traffic flow. Although great progress has been made, most GCN based traffic flow forecasting methods utilize a single graph for convolution, which is considered not enough to reveal the inherent property of traffic graph as it is influenced by many factors, for example weather, season and traffic accidents etc. In this paper, an exotic graph transformer based dynamic multiple graph convolution networks (GTDMGCN) is conceived for traffic flow forecasting. Instead of the single graph, multiple graphs are constructed to modulate the complex traffic network by the proposed graph transformer network. Additionally, a temporal gate convolution is proposed to get the temporal property of traffic flow. The proposed GTDMGCN model is evaluated on four real traffic datasets of PEMS03, PEMS04, PEMS07, PEMS08, and there are average increments of 9.78%, 7.80%, 5.96% under MAE, RMSE, and MAPE metrics compared with the current results.

Published in IET Intelligent Transport Systems

ISSN: 1751-956X (Print); 1751-9578 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Engineering (General). Civil engineering (General): Transportation engineering; Science: Mathematics: Instruments and machines: Electronic computers. Computer science
Website: https://ietresearch.onlinelibrary.wiley.com/journal/17519578

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