English

Trajectories and Platoon-forming Algorithm for Intersections with Heterogeneous Autonomous Traffic

Systems and Control 2024-01-25 v4 Systems and Control Optimization and Control Probability

Abstract

The anticipated launch of fully autonomous vehicles presents an opportunity to develop and implement novel traffic management systems. Intersections are one of the bottlenecks for urban traffic, and thus offer tremendous potential for performance improvements of traffic flow if managed efficiently. Platoon-forming algorithms, in which vehicles are grouped together with short inter-vehicular distances just before arriving at an intersection at high speed, seem particularly promising in this aspect. In this work, we present an intersection access control system based on platoon-forming for heterogeneous autonomous traffic. The heterogeneity of traffic arises from vehicles with different acceleration capabilities and safety constraints. We focus on obtaining computationally fast and interpretable closed-form expressions for safe and efficient vehicle trajectories that lead to platoon formation, and show that these trajectories are solutions to certain classes of optimisation problems. Additionally, we conduct a numerical study to obtain approximations for intersection capacity as a result of such platoon formation.

Keywords

Cite

@article{arxiv.2311.07435,
  title  = {Trajectories and Platoon-forming Algorithm for Intersections with Heterogeneous Autonomous Traffic},
  author = {P. C. Joshi and M. A. A. Boon and S. C. Borst},
  journal= {arXiv preprint arXiv:2311.07435},
  year   = {2024}
}

Comments

42 pages, 16 figures. 3D Animations included as ancillary files

R2 v1 2026-06-28T13:19:31.586Z