Optimal Control of Coupled Systems of Partial Differential Equations /
edited by Karl Kunisch, Jürgen Sprekels, Günter Leugering, Fredi Tröltzsch.
- viii, 345 páginas 45 ilustraciones, 15 ilustraciones en color. recurso en línea.
- International Series of Numerical Mathematics ; 158 .
Springer eBooks
Beyond Lack of Compactness and Lack of Stability of a Coupled Parabolic-Hyperbolic Fluid-Structure System -- A Continuous Adjoint Approach to Shape Optimization for Navier Stokes Flow -- Recent Advances in the Analysis of State-constrained Elliptic Optimal Control Problems -- Fast and Strongly Localized Observation for a perturbed Plate Equation -- Representations, Composition, and Decomposition of C 1,1-hypersurfaces -- On Some Nonlinear Optimal Control Problems with Vector-valued Affine Control Constraints -- Weak Solutions to a Model for Crystal Growth from the Melt in Changing Magnetic Fields -- Lavrentiev Prox-regularization Methods for Optimal Control Problems with Pointwise State Constraints -- Nonlinear Feedback Solutions for a Class of Quantum Control Problems -- Optimal Feedback Synthesis for Bolza Control Problem Arising in Linearized Fluid Structure Interaction -- Single-step One-shot Aerodynamic Shape Optimization -- Shape Differentiability of Drag Functional for Compressible Navier-Stokes Equations -- Null-controllability for a Coupled Heat-Finite-dimensional Beam System -- Feedback Modal Control of Partial Differential Equations -- Optimization Problems for Thin Elastic Structures -- A New Non-linear Semidefinite Programming Algorithm with an Application to Multidisciplinary Free Material Optimization -- How to Check Numerically the Sufficient Optimality Conditions for Infinite-dimensional Optimization Problems -- Hidden Boundary Shape Derivative for the Solution to Maxwell Equations and Non Cylindrical Wave Equations.
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 March 2008. 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.