Second Order Sufficient Optimality Conditions for Nonlinear Parabolic Control Problems with State Constraints

Raymond, Jean-Pierre, Tröltzsch, Fredi

30 October 1998

In this paper, optimal control problems for semilinear parabolic equations with distributed and boundary controls are considered. Pointwise constraints on the control and on the state are given. Main emphasis is laid on the discussion of second order sufficient optimality conditions. Sufficiency for local optimality is verified under different assumptions imposed on the dimension of the domain and on the smoothness of the given data.

Boundary control

distributed control

semilinear parabolic equations

sufficient optimality conditions

pointwise state constraints

MSC 49K20

MSC 35J25

ddc:510

Anisotropic mesh refinement for singularly perturbed reaction diffusion problems

Apel, Th., Lube, G.

30 October 1998

The paper is concerned with the finite element resolution of layers appearing in singularly perturbed problems. A special anisotropic grid of Shishkin type is constructed for reaction diffusion problems. Estimates of the finite element error in the energy norm are derived for two methods, namely the standard Galerkin method and a stabilized Galerkin method. The estimates are uniformly valid with respect to the (small) diffusion parameter. One ingredient is a pointwise description of derivatives of the continuous solution. A numerical example supports the result. Another key ingredient for the error analysis is a refined estimate for (higher) derivatives of the interpolation error. The assumptions on admissible anisotropic finite elements are formulated in terms of geometrical conditions for triangles and tetrahedra. The application of these estimates is not restricted to the special problem considered in this paper.

elliptic boundary value problems

Galerkin finite element methods

anisotropic mesh refinement

MSC 65N30

MSC 65N50

MSC 35J25

ddc:510

Anisotropic mesh refinement in stabilized Galerkin methods

Apel, Thomas, Lube, Gert

30 October 1998

The numerical solution of the convection-diffusion-reaction problem is considered in two and three dimensions. A stabilized finite element method of Galerkin/Least squares type accomodates diffusion-dominated as well as convection- and/or reaction- dominated situations. The resolution of boundary layers occuring in the singularly perturbed case is accomplished using anisotropic mesh refinement in boundary layer regions. In this paper, the standard analysis of the stabilized Galerkin method on isotropic meshes is extended to more general meshes with boundary layer refinement. Simplicial Lagrangian elements of arbitrary order are used.

elliptic boundary value problems

Galerkin finite element methods

anisotropic mesh refinement

MSC 65N30

MSC 65N50

MSC 35J25

ddc:510

A parallel preconditioned iterative realization of the panel method in 3D

Pester, M., Rjasanow, S.

30 October 1998

The parallel version of precondition iterative techniques is developed for matrices arising from the panel boundary element method for three-dimensional simple connected domains with Dirichlet boundary conditions. Results were obtained on an nCUBE-2 parallel computer showing that iterative solution methods are very well suited also in three-dimensional case for implementation on a MIMD computer and that they are much more efficient than usual direct solution techniques.

preconditioning

parallel computation

panel boundary element

method

iterative methods

MIMD computer.

MSC 65N38

MSC 65F10

MSC 35J25

MSC 65F35

MSC 65Y05

ddc:510

A parallel preconditioned iterative realization of the panel method in 3D

Pester, M., Rjasanow, S.

30 October 1998

The parallel version of precondition iterative techniques is developed for matrices arising from the panel boundary element method for three-dimensional simple connected domains with Dirichlet boundary conditions. Results were obtained on an nCUBE-2 parallel computer showing that iterative solution methods are very well suited also in three-dimensional case for implementation on a MIMD computer and that they are much more efficient than usual direct solution techniques.

info:eu-repo/classification/ddc/510

ddc:510

preconditioning

parallel computation

panel boundary element,method

iterative methods

MIMD computer.

MSC 65N38

MSC 65F10

MSC 35J25

MSC 65F35

MSC 65Y05

Anisotropic mesh refinement in stabilized Galerkin methods

Apel, Thomas, Lube, Gert

30 October 1998

The numerical solution of the convection-diffusion-reaction problem is considered in two and three dimensions. A stabilized finite element method of Galerkin/Least squares type accomodates diffusion-dominated as well as convection- and/or reaction- dominated situations. The resolution of boundary layers occuring in the singularly perturbed case is accomplished using anisotropic mesh refinement in boundary layer regions. In this paper, the standard analysis of the stabilized Galerkin method on isotropic meshes is extended to more general meshes with boundary layer refinement. Simplicial Lagrangian elements of arbitrary order are used.

info:eu-repo/classification/ddc/510

ddc:510

Second Order Sufficient Optimality Conditions for Nonlinear Parabolic Control Problems with State Constraints

Raymond, Jean-Pierre, Tröltzsch, Fredi

30 October 1998

In this paper, optimal control problems for semilinear parabolic equations with distributed and boundary controls are considered. Pointwise constraints on the control and on the state are given. Main emphasis is laid on the discussion of second order sufficient optimality conditions. Sufficiency for local optimality is verified under different assumptions imposed on the dimension of the domain and on the smoothness of the given data.

info:eu-repo/classification/ddc/510

ddc:510

Boundary control

distributed control

semilinear parabolic equations

sufficient optimality conditions

pointwise state constraints

MSC 49K20

MSC 35J25

Anisotropic mesh refinement for singularly perturbed reaction diffusion problems

Apel, Th., Lube, G.

30 October 1998

The paper is concerned with the finite element resolution of layers appearing in singularly perturbed problems. A special anisotropic grid of Shishkin type is constructed for reaction diffusion problems. Estimates of the finite element error in the energy norm are derived for two methods, namely the standard Galerkin method and a stabilized Galerkin method. The estimates are uniformly valid with respect to the (small) diffusion parameter. One ingredient is a pointwise description of derivatives of the continuous solution. A numerical example supports the result. Another key ingredient for the error analysis is a refined estimate for (higher) derivatives of the interpolation error. The assumptions on admissible anisotropic finite elements are formulated in terms of geometrical conditions for triangles and tetrahedra. The application of these estimates is not restricted to the special problem considered in this paper.

info:eu-repo/classification/ddc/510

ddc:510

elliptic boundary value problems

Galerkin finite element methods

anisotropic mesh refinement

MSC 65N30

MSC 65N50

MSC 35J25