Model-Free δ-Policy Iteration Based on Damped Newton Method for Nonlinear Continuous-Time H∞ Tracking Control

Abstract

This paper presents a δ-PI algorithm which is based on damped Newton method for the H∞ tracking control problem of unknown continuous-time nonlinear system. A discounted performance function and an augmented system are used to get the tracking Hamilton-Jacobi-Isaac (HJI) equation. Tracking HJI equation is a nonlinear partial differential equation, traditional reinforcement learning methods for solving the tracking HJI equation are mostly based on the Newton method, which usually only satisfies local convergence and needs a good initial guess. Based upon the damped Newton iteration operator equation, a generalized tracking Bellman equation is derived firstly. The δ-PI algorithm can seek the optimal solution of the tracking HJI equation by iteratively solving the generalized tracking Bellman equation. On-policy learning and off-policy learning δ-PI reinforcement learning methods are provided, respectively. Off-policy version δ-PI algorithm is a model-free algorithm which can be performed without making use of a priori knowledge of the system dynamics. NN-based implementation scheme for the off-policy δ-PI algorithms is shown. The suitability of the model-free δ-PI algorithm is illustrated with a nonlinear system simulation.