On a SQP-multigrid technique for nonlinear parabolic boundary control problems

Goldberg, H., Tröltzsch, F.

30 October 1998

An optimal control problem governed by the heat equation with nonlinear boundary conditions is considered. The objective functional consists of a quadratic terminal part and a quadratic regularization term. It is known, that an SQP method converges quadratically to the optimal solution of the problem. To handle the quadratic optimal control subproblems with high precision, very large scale mathematical programming problems have to be treated. The constrained problem is reduced to an unconstrained one by a method due to Bertsekas. A multigrid approach developed by Hackbusch is applied to solve the unconstrained problems. Some numerical examples illustrate the behaviour of the method.

optimal control

semilinear parabolic equation

multigrig method

SQP method

MSC 49M40

MSC 49M05

ddc:510

On a SQP-multigrid technique for nonlinear parabolic boundary control problems

Goldberg, H., Tröltzsch, F.

30 October 1998

An optimal control problem governed by the heat equation with nonlinear boundary conditions is considered. The objective functional consists of a quadratic terminal part and a quadratic regularization term. It is known, that an SQP method converges quadratically to the optimal solution of the problem. To handle the quadratic optimal control subproblems with high precision, very large scale mathematical programming problems have to be treated. The constrained problem is reduced to an unconstrained one by a method due to Bertsekas. A multigrid approach developed by Hackbusch is applied to solve the unconstrained problems. Some numerical examples illustrate the behaviour of the method.

info:eu-repo/classification/ddc/510

ddc:510

optimal control

semilinear parabolic equation

multigrig method

SQP method

MSC 49M40

MSC 49M05