A Trajectory Planning and Tracking Method Based on Deep Hierarchical Reinforcement Learning

Article

Zhang, Jiajie, Ye, Bao-Lin, Wang, Xin, Li, Lingxi and Song, Bo. 2025. "A Trajectory Planning and Tracking Method Based on Deep Hierarchical Reinforcement Learning." Journal of Intelligent and Connected Vehicles. 8 (2). https://doi.org/10.26599/JICV.2025.9210056
Article Title

A Trajectory Planning and Tracking Method Based on Deep Hierarchical Reinforcement Learning

Article CategoryArticle
AuthorsZhang, Jiajie, Ye, Bao-Lin, Wang, Xin, Li, Lingxi and Song, Bo
Journal TitleJournal of Intelligent and Connected Vehicles
Journal Citation8 (2)
Article Number9210056
Number of Pages9
Year2025
PublisherIEEE (Institute of Electrical and Electronics Engineers)
Place of PublicationUnited States
ISSN2399-9802
Digital Object Identifier (DOI)https://doi.org/10.26599/JICV.2025.9210056
Web Address (URL)https://ieeexplore.ieee.org/abstract/document/11083711
Abstract

To improve the driving efficiency of unmanned vehicles in a complex urban traffic flow environment and the safety and passenger comfort of vehicles when changing lanes, we propose a hierarchical reinforcement learning (HRL)-based vehicle trajectory planning and tracking method. First, we present a hierarchical control framework for vehicle trajectory tracking that is based on deep reinforcement learning (DRL) and model predictive control (MPC). We design an upper-level decision model based on the trust region policy optimization algorithm integrated with long short-term memory to obtain more accurate strategies. Second, to improve stability and passenger comfort, we constructed a lower controller that combines the Bezier curve fitting method and an MPC controller. Finally, the proposed method was simulated via the car learning to act (CARLA) simulator, which is based on an unreal engine. Random urban traffic-flow test scenarios were used to simulate a real urban road-traffic environment. The simulation results illustrate that the proposed method can complete the vehicle trajectory planning and tracking task well. Compared with the existing RL methods, our proposed method has the lowest collision rate of 1.5% and achieves an average speed improvement of 7.04%. Moreover, our proposed method has better comfort performance and lower fuel consumption during the driving process.

Keywordsdeep reinforcement learning (DRL); trust region policy optimization (TRPO); hierarchical reinforcement learning (HRL); model predictive control (MPC); trajectory tracking
Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 2020460299. Artificial intelligence not elsewhere classified
400799. Control engineering, mechatronics and robotics not elsewhere classified
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Byline AffiliationsJiaxing University, China
Zhejiang Sci-Tech University, China
Purdue University, United States
School of Engineering
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