화학공학소재연구정보센터
SIAM Journal on Control and Optimization, Vol.54, No.5, 2787-2819, 2016
MPULSE AND SAMPLED-DATA OPTIMAL CONTROL OF HEAT EQUATIONS, AND ERROR ESTIMATES
We consider the optimal control problem of minimizing some quadratic functional over all possible solutions of an internally controlled multidimensional heat equation with a periodic terminal state constraint. This problem has a unique optimal solution, which can be characterized by an optimality system derived from the Pontryagin maximum principle. We define two approximations of this optimal control problem. The first one is an impulse approximation and consists of considering a system of linear heat equations with impulse control. The second one is obtained by the sample-andhold procedure applied to the control, resulting in a sampled-data approximation of the controlled heat equation. We prove that both problems have a unique optimal solution, and we establish precise error estimates for the optimal controls and optimal states of the initial problem with respect to its impulse and sampled-data approximations.