Finite Element Approximation for Optimal Shape Design: Theory and ApplicationsExplains how to speed the optimal shape design process using a computer. Outlines the problems inherent in optimal shape design and discusses methods of their solution. Concentrates on finite element approximation and describes numerical realization of optimization techniques. Treats optimal design problems via the optimal control theory when the state systems are governed by variational inequalities. Provides useful background information, followed by numerous approaches to optimal shape design, all supported by illustrative examples. Appendices provide algorithms and numerous examples and their calculations are included. |
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Page vii
... body on a rigid frictionless foundation , 2 ) a model with friction between the body and the support taken into account . We present the formulation of the problem in a continuous setting as well as in a discrete setting ( in matrix ...
... body on a rigid frictionless foundation , 2 ) a model with friction between the body and the support taken into account . We present the formulation of the problem in a continuous setting as well as in a discrete setting ( in matrix ...
Page 50
... body N1 and body n2 where contact may occur . These are chosen as sufficiently large to contain the actual contact regions in the problem solution . Consistent with the small deformations assumption , the initial gap a between the bodies ...
... body N1 and body n2 where contact may occur . These are chosen as sufficiently large to contain the actual contact regions in the problem solution . Consistent with the small deformations assumption , the initial gap a between the bodies ...
Page 133
... body represented by a bounded domain CR2 subjected to internal and external forces . These forces cause deformation of the body so that the point x , x = ( x1 , x2 ) of the undeformed body becomes the point x ' , x ' = ( x1 , x2 ) of ...
... body represented by a bounded domain CR2 subjected to internal and external forces . These forces cause deformation of the body so that the point x , x = ( x1 , x2 ) of the undeformed body becomes the point x ' , x ' = ( x1 , x2 ) of ...
Contents
Preliminaries | 1 |
Abstract setting of optimal shape design problem and | 28 |
Optimal shape design of systems governed by a unilateral | 53 |
Copyright | |
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Common terms and phrases
algorithm Appendix applied approximation boundary value problem C₁ Céa Computer constraints contact problems convex convex set cost functional defined denote design sensitivity analysis differentiable discrete domain elastic element method exist a subsequence Figure Find finite element finite element method follows formula given Glowinski Gm(a H¹(Î Haslinger Haug Hlaváček Ir(an ITERATION jEJk ji Eli Komkov Lagrange multipliers Lemma lim inf lim sup linear Lipschitz continuous lower semicontinuous matrix minimization Nečas Neittaanmäki nodes nonlinear programming nonsmooth Numerical results obtain optimal control optimal design optimal pair optimal shape design parameter Pironneau Proof results for Example Section sequence shape design problems Shape optimization Sokolowski solves P(a structural design structural optimization subgradient subset T(Un T₁ Theorem triangulation un(an variational inequality vector w₁ Zolesio г₁