Speaker: Professor Arnd Ro"sch (Universita"t Duisburg-Essen)
**Time:** 10h45, Friday, March 22, 2019
**Location**: Grand Hall, Building A6, Institute of Mathematics, 18B Hoang Quoc Viet, Cau Giay, Hanoi
**Abstract**:: Optimal control of partial differential equations is very important for a lot of technological processes. Usually, such problems are characterized by several mathematical difficulties: coupled systems of nonlinear equations, geometrical singularities and pointwise inequality constraints. Such problems can only solved numerically. Consequently, the question occur: How accurate are numerical solutions of optimal control problems?
In this talk I will only consider linear elliptic equations. After a short motivation I will give a short introduction to the theory of linear-quadratic optimal control problems. Next, I will discuss different approaches to discretize the problems. The most simple approach gives the order $h$ of the mesh size.
More advanced methods increase the order to $h^2$. Recent results show that even order $h^4$ is possible.
In a separate part I will present the modifications which are needed for geometrical singularities like reentrant corners. The whole talk is illustrated by numerical experiments. |