English

AV4EV: Open-Source Modular Autonomous Electric Vehicle Platform for Making Mobility Research Accessible

Robotics 2024-04-16 v2 Systems and Control Systems and Control

Abstract

When academic researchers develop and validate autonomous driving algorithms, there is a challenge in balancing high-performance capabilities with the cost and complexity of the vehicle platform. Much of today's research on autonomous vehicles (AV) is limited to experimentation on expensive commercial vehicles that require large skilled teams to retrofit the vehicles and test them in dedicated facilities. On the other hand, 1/10th-1/16th scaled-down vehicle platforms are more affordable but have limited similitude in performance and drivability. To address this issue, we present the design of a one-third-scale autonomous electric go-kart platform with open-source mechatronics design along with fully functional autonomous driving software. The platform's multi-modal driving system is capable of manual, autonomous, and teleoperation driving modes. It also features a flexible sensing suite for the algorithm deployment across perception, localization, planning, and control. This development serves as a bridge between full-scale vehicles and reduced-scale cars while accelerating cost-effective algorithmic advancements. Our experimental results demonstrate the AV4EV platform's capabilities and ease of use for developing new AV algorithms. All materials are available at AV4EV.org to stimulate collaborative efforts within the AV and electric vehicle (EV) communities.

Keywords

Cite

@article{arxiv.2312.00951,
  title  = {AV4EV: Open-Source Modular Autonomous Electric Vehicle Platform for Making Mobility Research Accessible},
  author = {Zhijie Qiao and Mingyan Zhou and Zhijun Zhuang and Tejas Agarwal and Felix Jahncke and Po-Jen Wang and Jason Friedman and Hongyi Lai and Divyanshu Sahu and Tomáš Nagy and Martin Endler and Jason Schlessman and Rahul Mangharam},
  journal= {arXiv preprint arXiv:2312.00951},
  year   = {2024}
}

Comments

6 pages, 5 figures

R2 v1 2026-06-28T13:38:55.220Z