Shape Optimization And Optimal Design
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adaptive control theory
advanced shape design for engineering systems
boundary controllability
Bounded Subset
Carleman Estimate
Category=PBCN
Category=UB
Continuously Differentiable
derivative
Distributed Parameter Systems
div
eq_bestseller
eq_computing
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
Eulerian Derivative
Existence Result
field
fractured manifold analysis
gradient
Hemivariational Inequalities
hilbert
Instationary Navier Stokes Equations
Lagrangian Functionals
Lower Order Terms
material
Navier Stokes Equations
nonlinear boundary control
numerical optimization methods
open
Optimal Control
Optimal Control Problem
Ordinary Differential Equation
partial differential equations
Shape Derivative
Shape Functional
Shape Gradient
Shape Optimization Problem
Shape Sensitivity Analysis
Solving Inverse Problems
space
Structure Theorem
subset
Thermoelastic Systems
Variational Inequality
vector
Vector Field
Vp
Product details
- ISBN 9781138413313
- Weight: 1000g
- Dimensions: 178 x 254mm
- Publication Date: 02 Aug 2017
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Hardback
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This volume presents developments and advances in modelling passive and active control systems governed by partial differential equations. It emphasizes shape analysis, optimal shape design, controllability, nonlinear boundary control, and stabilization. The authors include essential data on exact boundary controllability of thermoelastic plates with variable transmission coefficients.
John Cagnol (Pole Universitaire Leonard de Vinci, Paris, France) (Edited by) , Michael P. Polis (Oakland University, Rochester, Michigan, USA) (Edited by) , Jean-Paul Zolesio (CNRS, Sophia Antipolis, France) (Edited by)
