A Unified Spatio-Temporal Model for Short-Term Traffic Flow Prediction
Loading...
Date
Authors
Duan, Peibo
Mao, Guoqiang
Liang, Weifa
Zhang, Degan
Journal Title
Journal ISSN
Volume Title
Publisher
Institute of Electrical and Electronics Engineers (IEEE Inc)
Abstract
This paper proposes a unified spatio-temporal
model for short-term road traffic prediction. The contributions of
this paper are as follows. First, we develop a physically intuitive
approach to traffic prediction that captures the time-varying
spatio-temporal correlation between traffic at different measurement
points. The spatio-temporal correlation is affected by the
road network topology, time-varying speed, and time-varying
trip distribution. Distinctly different from previous black-box
approaches to road traffic modeling and prediction, parameters
of the proposed approach have physically intuitive meanings
which make them readily amendable to suit changing road
and traffic conditions. Second, unlike some existing techniques
that capture the variation of spatio-temporal correlation by a
complete re-design and calibration of the model, the proposed
approach uses a unified model that incorporates the physical
factors potentially affecting the variation of spatio-temporal
correlation into a series of parameters. These parameters are relatively
easy to control and adjust when road and traffic conditions
change, thereby greatly reducing the computational complexity.
Experiments using two sets of real traffic traces demonstrate
that the proposed approach has superior accuracy compared
with the widely used space–time autoregressive integrated moving
average (STARIMA) and the back propagation neural network
approaches, and is only marginally inferior to that obtained
by constructing multiple STARIMA models for different times
of the day, however, with a much reduced computational and
implementation complexity.
Description
Citation
Collections
Source
IEEE Transactions on Intelligent Transportation Systems
Type
Book Title
Entity type
Access Statement
License Rights
Restricted until
2099-12-31