Control of Coupled Partial Differential Equations

Title:

Author:

Kunisch, Karl. editor.

ISBN:

9783764377212

Physical Description:

VII, 384 p. online resource.

Series:

International Series of Numerical Mathematics ; 155

Contents:

A Sharp Geometric Condition for the Boundary Exponential Stabilizability of a Square Plate by Moment Feedbacks only -- Local Exponential Stabilization Strategies of the Navier-Stokes Equations, d = 2, 3, via Feedback Stabilization of its Linearization -- Convergence Analysis of an Adaptive Finite Element Method for Distributed Control Problems with Control Constraints -- Optimal Boundary Control in Flood Management -- On Two Numerical Approaches for the Boundary Control Stabilization of Semi-linear Parabolic Systems: A Comparison -- Fast Solution Techniques in Constrained Optimal Boundary Control of the Semilinear Heat Equation -- Optimal and Model Predictive Control of the Boussinesq Approximation -- Applications of Semi-smooth Newton Methods to Variational Inequalities -- Identification of Nonlinear Coefficients in Hyperbolic PDEs, with Application to Piezoelectricity -- An SQP Active Set Method for a Semilinear Optimal Control Problem with Nonlocal Radiation Interface Conditions -- Shape Optimization for Navier-Stokes Equations -- A Family of Stabilization Problems for the Oseen Equations -- Beyond Bilinear Controllability: Applications to Quantum Control -- Optimal Control Problems with Convex Control Constraints -- Control of Moving Domains, Shape Stabilization and Variational Tube Formulations.

Abstract:

This volume contains selected contributions originating from the ‘Conference on Optimal Control of Coupled Systems of Partial Differential Equations’, held at the ‘Mathematisches Forschungsinstitut Oberwolfach’ in April 2005. With their articles, leading scientists cover a broad range of topics such as controllability, feedback-control, optimality systems, model-reduction techniques, analysis and optimal control of flow problems, and fluid-structure interactions, as well as problems of shape and topology optimization. Applications affected by these findings are distributed over all time and length scales starting with optimization and control of quantum mechanical systems, the design of piezoelectric acoustic micro-mechanical devices, or optimal control of crystal growth to the control of bodies immersed into a fluid, airfoil design, and much more. The book addresses advanced students and researchers in optimization and control of infinite dimensional systems, typically represented by partial differential equations. Readers interested either in theory or in numerical simulation of such systems will find this book equally appealing.

Subject Term:

Mathematics.

Differential equations, partial.

Systems theory.

Mathematical optimization.

Partial Differential Equations.

Systems Theory, Control.

Added Author: