Large-Scale Station-Level Crowd Flow Forecast with ST-Unet

Content Provider	Directory of Open Access Journals (DOAJ)
Author	Jun Li Jiangjiang Wu Yirong Zhou Hao Chen Ye Wu Luo Chen
Abstract	High crowd mobility is a characteristic of transportation hubs such as metro/bus/bike stations in cities worldwide. Forecasting the crowd flow for such places, known as station-level crowd flow forecast (SLCFF) in this paper, would have many benefits, for example traffic management and public safety. Concretely, SLCFF predicts the number of people that will arrive at or depart from stations in a given period. However, one challenge is that the crowd flows across hundreds of stations irregularly scattered throughout a city are affected by complicated spatio-temporal events. Additionally, some external factors such as weather conditions or holidays may change the crowd flow tremendously. In this paper, a spatio-temporal U-shape network model (ST-Unet) for SLCFF is proposed. It is a neural network-based multi-output regression model, handling hundreds of target variables, i.e., all stations’ in and out flows. ST-Unet emphasizes stations’ spatial dependence by integrating the crowd flow information from neighboring stations and the cluster it belongs to after hierarchical clustering. It learns the temporal dependence by modeling the temporal closeness, period, and trend of crowd flows. With proper modifications on the network structure, ST-Unet is easily trained and has reliable convergency. Experiments on four real-world datasets were carried out to verify the proposed method’s performance and the results show that ST-Unet outperforms seven baselines in terms of SLCFF.
Related Links	http://www.mdpi.com/2220-9964/8/3/140
e-ISSN	22209964
DOI	10.3390/ijgi8030140
Journal	ISPRS International Journal of Geo-Information
Issue Number	3
Volume Number	8
Language	English
Publisher	MDPI AG
Publisher Date	2019-01-01
Publisher Place	Switzerland
Access Restriction	Open
Subject Keyword	Geography (general) Crowd Flow Forecast Irregular Grid Data Multi-output Regression Deep Neural Network Spatio-temporal Analysis
Content Type	Text
Resource Type	Article