A Dynamic Transformation Car-Following Model for the Prediction of the Traffic Flow Oscillation
Journal article, 2024

Car-following (CF) behavior is a fundamental of traffic flow modeling; it can be used for the virtual testing of connected and automated vehicles and the simulation of various types of traffic flow, such as free flow and traffic oscillation. Although existing CF models can replicate the free flow well, they are incapable of simulating complicated traffic oscillation, and it is difficult to strike a balance between accuracy and efficiency. This article investigates the error variation when the traffic oscillation is simulated by the intelligent driver model (IDM). Then, it divides the traffic oscillation into four phases (coasting, deceleration, acceleration, and stationary) by using the space headway of multiple steps. To simulate traffic oscillation between multiple human-driven vehicles, a dynamic transformation CF model is proposed, which includes the long-time prediction submodel [modified sequence-to-sequence (Seq2seq)] model, short-time prediction submodel (Transformer), and their dynamic transformation strategy]. The first submodel is utilized to simulate the coasting and stationary phases, while the second submodel is utilized to simulate the acceleration and deceleration phases. The results of experiments indicated that compared to K-nearest neighbors, IDM, and Seq2seq CF models, the dynamic transformation CF model reduces the trajectory error by 60.79–66.69% in microscopic traffic flow simulations, 7.71–29.91% in mesoscopic traffic flow simulations, and 1.59–18.26% in macroscopic traffic flow simulations. Moreover, the runtime of the dynamic transformation CF model (Inference) decreased by 14.43–66.17% when simulating the large-scale traffic flow.

Oscillators

TV

Analytical models

Predictive models

Trajectory

Vehicle dynamics

Behavioral sciences

Author

Shan Fang

Changan University

Lan Yang

Changan University

Xiangmo Zhao

Changan University

Wei Wang

Changan University

Zhigang Xu

Changan University

Guoyuan Wu

University of California

Yang Liu

Chalmers, Architecture and Civil Engineering, Geology and Geotechnics

Xiaobo Qu

Tsinghua University

IEEE Intelligent Transportation Systems Magazine

19391390 (ISSN) 19411197 (eISSN)

Vol. 16 1 174-198

Subject Categories

Transport Systems and Logistics

Control Engineering

DOI

10.1109/MITS.2023.3317081

More information

Latest update

3/7/2024 9