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Introduction to Shape Optimization

Shape Sensitivity Analysis

  • Book
  • © 1992

Overview

Authors:
  1. Jan Sokolowski

    1. Systems Research Institute, Polish Academy of Sciences, Warszawa, Poland

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  2. Jean-Paul Zolesio

    1. Faculté des Sciences, Centre National de la Recherche Scientifique et Institut non Lineaire de Nice, Nice Cedex 2, France

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Part of the book series: Springer Series in Computational Mathematics (SSCM, volume 16)

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Table of contents (4 chapters)

  1. Front Matter

    Pages i-4
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  2. Introduction to shape optimization

    • Jan Sokolowski, Jean-Paul Zolesio
    Pages 5-12

  3. Preliminaries and the material derivative method

    • Jan Sokolowski, Jean-Paul Zolesio
    Pages 13-116

  4. Shape Derivatives for Linear Problems

    • Jan Sokolowski, Jean-Paul Zolesio
    Pages 117-162

  5. Shape Sensitivity Analysis of Variational Inequalities

    • Jan Sokolowski, Jean-Paul Zolesio
    Pages 163-239

  6. Back Matter

    Pages 240-250
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Keywords

About this book

This book is motivated largely by a desire to solve shape optimization prob­ lems that arise in applications, particularly in structural mechanics and in the optimal control of distributed parameter systems. Many such problems can be formulated as the minimization of functionals defined over a class of admissible domains. Shape optimization is quite indispensable in the design and construction of industrial structures. For example, aircraft and spacecraft have to satisfy, at the same time, very strict criteria on mechanical performance while weighing as little as possible. The shape optimization problem for such a structure consists in finding a geometry of the structure which minimizes a given functional (e. g. such as the weight of the structure) and yet simultaneously satisfies specific constraints (like thickness, strain energy, or displacement bounds). The geometry of the structure can be considered as a given domain in the three-dimensional Euclidean space. The domain is an open, bounded set whose topology is given, e. g. it may be simply or doubly connected. The boundary is smooth or piecewise smooth, so boundary value problems that are defined in the domain and associated with the classical partial differential equations of mathematical physics are well posed. In general the cost functional takes the form of an integral over the domain or its boundary where the integrand depends smoothly on the solution of a boundary value problem.

Authors and Affiliations

  • Systems Research Institute, Polish Academy of Sciences, Warszawa, Poland

    Jan Sokolowski

  • Faculté des Sciences, Centre National de la Recherche Scientifique et Institut non Lineaire de Nice, Nice Cedex 2, France

    Jean-Paul Zolesio

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