AIMS Mathematics (Mar 2022)
A sharp error analysis for the DG method of optimal control problems
Abstract
In this paper, we are concerned with a nonlinear optimal control problem of ordinary differential equations. We consider a discretization of the problem with the discontinuous Galerkin method with arbitrary order $ r \in \mathbb{N}\cup \{0\} $. Under suitable regularity assumptions on the cost functional and solutions of the state equations, we first show the existence of a local solution to the discretized problem. We then provide sharp estimates for the $ L^2 $-error of the approximate solutions. The convergence rate of the error depends on the regularity of the optimal solution $ \bar{u} $ and its adjoint state with the degree of piecewise polynomials. Numerical experiments are presented supporting the theoretical results.
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