Vera Bommer ( Universität Duisburg) „Numerical Analysis for Optimal Control of the Full Time-Dependent Maxwell Equation“

Montag, 19.12.2016 14:00 im Raum N1
Mathematik und Informatik

In this talk an optimal control problem of the full time-dependent Maxwell equations and its numerical analysis are presented. We aim at finding the optimal current density and its time-dependent amplitude which steer the electric and magnetic fields to the desired ones. The mathematical analysis of the control problem which includes existence and regularity results is briefly discussed. Then, by choosing the lowest order edge elements of Nédélecs first family for the current density and Lagrange-elements for the amplitude a finite element approximation of the control is established. Further, the Maxwell equations, that have a first order hyperbolic coupled structure, are discretized by mixed finite elements based on piecewise constant elements for the electric field and lowest order edge elements of Nédélecs first family for the magnetic field. The time discretization is obtained via a Crank-Nicholson scheme. We present preliminary theoretical results on the finite element approximation of the optimal control problem including conditions for a priori error rates.

Angelegt am Mittwoch, 30.11.2016 10:02 von cgiet_01
Geändert am Freitag, 02.12.2016 08:30 von cgiet_01
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