English

Stable Gaussian Process based Tracking Control of Euler-Lagrange Systems

Machine Learning 2019-02-26 v2 Systems and Control Machine Learning

Abstract

Perfect tracking control for real-world Euler-Lagrange systems is challenging due to uncertainties in the system model and external disturbances. The magnitude of the tracking error can be reduced either by increasing the feedback gains or improving the model of the system. The latter is clearly preferable as it allows to maintain good tracking performance at low feedback gains. However, accurate models are often difficult to obtain. In this article, we address the problem of stable high-performance tracking control for unknown Euler-Lagrange systems. In particular, we employ Gaussian Process regression to obtain a data-driven model that is used for the feed-forward compensation of unknown dynamics of the system. The model fidelity is used to adapt the feedback gains allowing low feedback gains in state space regions of high model confidence. The proposed control law guarantees a globally bounded tracking error with a specific probability. Simulation studies demonstrate the superiority over state of the art tracking control approaches.

Keywords

Cite

@article{arxiv.1806.07190,
  title  = {Stable Gaussian Process based Tracking Control of Euler-Lagrange Systems},
  author = {Thomas Beckers and Dana Kulić and Sandra Hirche},
  journal= {arXiv preprint arXiv:1806.07190},
  year   = {2019}
}

Comments

Accepted manuscript for publication in Elsevier Automatica

R2 v1 2026-06-23T02:34:34.361Z