04046nam 2200565 a 450 991100678680332120241120174723.01-68015-788-40-89871-869-4DC07(CKB)2430000000023479(CaBNVSL)gtp00544281(SIAM)9780898718690(SSID)ssj0000527657(PQKBManifestationID)12188325(PQKBTitleCode)TC0000527657(PQKBWorkID)10527088(PQKB)10949772(PPN)189758503(EXLCZ)992430000000023479DC07SIAM20101020d2003 fy 0engurbn||||m|||atxtccrIntroduction to shape optimization theory, approximation, and computation /J. Haslinger, R.A.E. MaÌˆkinenPhiladelphia, Pa. Society for Industrial and Applied Mathematics (SIAM, 3600 Market Street, Floor 6, Philadelphia, PA 19104)20031 electronic text (xviii, 273 p.) ill., digital fileAdvances in design and control ;7Bibliographic Level Mode of Issuance: Monograph0-89871-536-9 Includes bibliographical references (p. 263-270) and index.Why the mathematical analysis is important -- A mathematical introduction to sizing and shape optimization -- Sensitivity analysis -- Numerical minimization methods -- On automatic differentiation of computer programs -- Fictitious domain methods in shape optimization -- Applications in elasticity -- Fluid mechanical and multidisciplinary applications -- Appendix A: Weak formulations and approximations of elliptic equations and inequalities -- Appendix B: On parametrizations of shapes and mesh generation.The efficiency and reliability of manufactured products depend on, among other things, geometrical aspects; it is therefore not surprising that optimal shape design problems have attracted the interest of applied mathematicians and engineers. This self-contained, elementary introduction to the mathematical and computational aspects of sizing and shape optimization enables readers to gain a firm understanding of the theoretical and practical aspects so they may confidently enter this field. Introduction to Shape Optimization: Theory, Approximation, and Computation treats sizing and shape optimization comprehensively, covering everything from mathematical theory (existence analysis, discretizations, and convergence analysis for discretized problems) through computational aspects (sensitivity analysis, numerical minimization methods) to industrial applications. Applications include contact stress minimization for elasto-plastic bodies, multidisciplinary optimization of an airfoil, and shape optimization of a dividing tube. By presenting sizing and shape optimization in an abstract way, the authors are able to use a unified approach in the mathematical analysis for a large class of optimization problems in various fields of physics. Audience: the book is written primarily for students of applied mathematics, scientific computing, and mechanics. Most of the material is directed toward graduate students, although a portion of it is suitable for senior undergraduate students. Readers are assumed to have some knowledge of partial differential equations and their numerical solution, as well as modern programming language such as C++ Fortran 90.Advances in design and control ;7.Structural optimizationMathematicsStructural optimizationMathematics.624.1/7713Haslinger J58886MaÌˆkinen R. A. E1825470Society for Industrial and Applied Mathematics.CaBNVSLCaBNVSLCaBNVSLBOOK9911006786803321Introduction to shape optimization4393157UNINA