English

Multi-Agent Reinforcement Learning-based Cooperative Autonomous Driving in Smart Intersections

Robotics 2025-05-08 v1 Multiagent Systems Systems and Control Systems and Control

Abstract

Unsignalized intersections pose significant safety and efficiency challenges due to complex traffic flows. This paper proposes a novel roadside unit (RSU)-centric cooperative driving system leveraging global perception and vehicle-to-infrastructure (V2I) communication. The core of the system is an RSU-based decision-making module using a two-stage hybrid reinforcement learning (RL) framework. At first, policies are pre-trained offline using conservative Q-learning (CQL) combined with behavior cloning (BC) on collected dataset. Subsequently, these policies are fine-tuned in the simulation using multi-agent proximal policy optimization (MAPPO), aligned with a self-attention mechanism to effectively solve inter-agent dependencies. RSUs perform real-time inference based on the trained models to realize vehicle control via V2I communications. Extensive experiments in CARLA environment demonstrate high effectiveness of the proposed system, by: \textit{(i)} achieving failure rates below 0.03\% in coordinating three connected and autonomous vehicles (CAVs) through complex intersection scenarios, significantly outperforming the traditional Autoware control method, and \textit{(ii)} exhibiting strong robustness across varying numbers of controlled agents and shows promising generalization capabilities on other maps.

Keywords

Cite

@article{arxiv.2505.04231,
  title  = {Multi-Agent Reinforcement Learning-based Cooperative Autonomous Driving in Smart Intersections},
  author = {Taoyuan Yu and Kui Wang and Zongdian Li and Tao Yu and Kei Sakaguchi},
  journal= {arXiv preprint arXiv:2505.04231},
  year   = {2025}
}

Comments

7 pages

R2 v1 2026-06-28T23:24:09.833Z