摘要:AbstractIn this paper, a new algorithm for realization of approximate dynamic programming (ADP) with Gaussian processes (GPs) for continuous-time (CT) nonlinear input-affine systems is proposed to infinite horizon optimal control problems. The convergence for the ADP algorithm is proven based on the assumption of an exact approximation, where both the cost function and the control input converge to their optimal values, that is, the solution to the Hamilton-Jacobi-Bellman (HJB) equation. The approximation errors, however, are unavoidable in almost every case of applications. In order to tackle the problem, the proposed algorithm is derived with the proof of convergence, where the cost function and the control input, which are both approximated, converge to those of the ADP as the number of data points for GPs approaches infinity. A numerical simulation demonstrates the effectiveness of the proposed algorithm.