Abstract
With the rapid economic growth and the continuous increase in population, cars have become a necessity for most people to travel. The increase in the number of cars is accompanied by serious traffic congestion. In order to alleviate traffic congestion, many places have introduced policies such as vehicle restriction, and intelligent transportation systems have gradually been put into use. Due to the chaotic complexity of the traffic road network and the short-term mobility of the population, traffic flow prediction is affected by many complex factors, and an effective traffic flow forecasting system is very challenging. This paper proposes a model to predict the traffic flow of Wenyi Road in Hangzhou. Wenyi Road consists of four crossroads. The four intersections have the same changing trend in traffic flow at the same time, which indicates that the roads influence each other spatially, and the traffic flow has spatial and temporal correlation. Based on this feature of traffic flow, we propose the IMgru model to better extract the traffic flow temporal characteristics. In addition, the IMgruGcn model is proposed, which combines the graph convolutional network (GCN) module and the IMgru module, to extract the spatiotemporal features of traffic flow simultaneously. Finally, according to the morning and evening peak characteristics of Hangzhou, the Wenyi Road dataset is divided into peak period and off-peak period for prediction. Comparing the IMgruGcn model with five baseline models and a state-of-the-art method, the IMgruGcn model achieves better results. Best results were also achieved on a public dataset, demonstrating the generalization ability of the IMgruGcn model.
Highlights
The number of motor vehicles is rising with the rapid development of technology and economy and caused more serious traffic congestion
The traffic flow data we study has a lot of irregular data structure, which requires the use of graph convolutional network to process, and the essence and purpose of the graph convolutional network is to mine the spatial features of the topological graph
We found that the traffic flow at the four intersections in the Wenyi Road dataset has the same trend at the same moment, which is due to the interaction of traffic flow between upstream and downstream roads, indicating that the traffic flow is spatially correlated, so the IMgruGcn model was proposed, which combined the graph convolutional network (GCN) module and the IMgru module to obtain the spatial and temporal characteristics of traffic flow, making the traffic flow prediction results more accurate
Summary
The number of motor vehicles is rising with the rapid development of technology and economy and caused more serious traffic congestion. In order to relieve traffic pressure and improve the smoothness of travel, various solutions have emerged, such as increasing road width, traffic flow limiting according to single and double license plates, using public transportation, and developing traffic management systems. The main strategy to solve traffic congestion in the early days was to enhance road construction and increase the traffic capacity of the roads to meet the traffic demand. Since the rate of road construction was far from keeping up with the increase in vehicles and the limitation in urban area (Yu et al, 2019), this led to severe traffic jams during the peak hours of travel to work. Intelligent transportation systems (ITS) have emerged (Do et al, 2019), to manage vehicles intelligently and direct traffic flow, to change the spatial and temporal distribution of vehicles in the road network and equalize traffic flow
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
