English

Adaptive Actor-Critic Based Optimal Regulation for Drift-Free Uncertain Nonlinear Systems

Systems and Control 2024-06-14 v1 Robotics Systems and Control

Abstract

In this paper, a continuous-time adaptive actor-critic reinforcement learning (RL) controller is developed for drift-free nonlinear systems. Practical examples of such systems are image-based visual servoing (IBVS) and wheeled mobile robots (WMR), where the system dynamics includes a parametric uncertainty in the control effectiveness matrix with no drift term. The uncertainty in the input term poses a challenge for developing a continuous-time RL controller using existing methods. In this paper, an actor-critic or synchronous policy iteration (PI)-based RL controller is presented with a concurrent learning (CL)-based parameter update law for estimating the unknown parameters of the control effectiveness matrix. An infinite-horizon value function minimization objective is achieved by regulating the current states to the desired with near-optimal control efforts. The proposed controller guarantees closed-loop stability and simulation results validate the proposed theory using IBVS and WMR examples.

Keywords

Cite

@article{arxiv.2406.09097,
  title  = {Adaptive Actor-Critic Based Optimal Regulation for Drift-Free Uncertain Nonlinear Systems},
  author = {Ashwin P. Dani and Shubhendu Bhasin},
  journal= {arXiv preprint arXiv:2406.09097},
  year   = {2024}
}
R2 v1 2026-06-28T17:04:32.359Z