English

Learning Speed Adaptation for Flight in Clutter

Robotics 2024-07-11 v2 Machine Learning

Abstract

Animals learn to adapt speed of their movements to their capabilities and the environment they observe. Mobile robots should also demonstrate this ability to trade-off aggressiveness and safety for efficiently accomplishing tasks. The aim of this work is to endow flight vehicles with the ability of speed adaptation in prior unknown and partially observable cluttered environments. We propose a hierarchical learning and planning framework where we utilize both well-established methods of model-based trajectory generation and trial-and-error that comprehensively learns a policy to dynamically configure the speed constraint. Technically, we use online reinforcement learning to obtain the deployable policy. The statistical results in simulation demonstrate the advantages of our method over the constant speed constraint baselines and an alternative method in terms of flight efficiency and safety. In particular, the policy behaves perception awareness, which distinguish it from alternative approaches. By deploying the policy to hardware, we verify that these advantages can be brought to the real world.

Keywords

Cite

@article{arxiv.2403.04586,
  title  = {Learning Speed Adaptation for Flight in Clutter},
  author = {Guangyu Zhao and Tianyue Wu and Yeke Chen and Fei Gao},
  journal= {arXiv preprint arXiv:2403.04586},
  year   = {2024}
}

Comments

Published on Robotics and Automation Letter (RA-L). 8 pages, 10 figures. The first two authors contribute equally to this work. Project page: https://learning-agility-adaptation.github.io/

R2 v1 2026-06-28T15:12:27.761Z