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Sifakis, Eftychios [VerfasserIn] ; Barbic, Jernej [Sonstige Person, Familie und Körperschaft]

Finite element method simulation of 3D deformable solids

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  • Medientyp: E-Book
  • Titel: Finite element method simulation of 3D deformable solids
  • Beteiligte: Sifakis, Eftychios [VerfasserIn]; Barbic, Jernej [Sonstige Person, Familie und Körperschaft]
  • Erschienen: San Rafael, California (1537 Fourth Street, San Rafael, CA 94901 USA): Morgan & Claypool, 2016
  • Erschienen in: Synthesis lectures on visual computing ; 21
  • Umfang: Online-Ressource (xii, 57 pages); illustrations
  • Sprache: Englisch
  • DOI: 10.2200/S00674ED1V01Y201509CGR021
  • ISBN: 9781627054430
  • Identifikator:
  • Schlagwörter: Elastic solids ; Strength of materials
  • Entstehung:
  • Anmerkungen: Part of: Synthesis digital library of engineering and computer science. - Includes bibliographical references (pages 53-56). - Compendex. INSPEC. Google scholar. Google book search. - Title from PDF title page (viewed on November 24, 2015)
    1. Elasticity in three dimensions -- 1.1 Deformation map and deformation gradient -- 1.2 Strain energy and hyperelasticity -- 1.3 Force and traction -- 1.4 The first Piola-Kirchhoff stress tensor --
    Mode of access: World Wide Web
    System requirements: Adobe Acrobat Reader
  • Beschreibung: This book serves as a practical guide to simulation of 3D deformable solids using the Finite Element Method (FEM). It reviews a number of topics related to the theory and implementation of FEM approaches: measures of deformation, constitutive laws of nonlinear materials, tetrahedral discretizations, and model reduction techniques for real-time simulation. Simulations of deformable solids are important in many applications in computer graphics, including film special effects, computer games, and virtual surgery. The Finite Element Method has become a popular tool in many such applications. Variants of FEM catering to both offline and real-time simulation have had a mature presence in computer graphics literature. This book is designed for readers familiar with numerical simulation in computer graphics, who would like to obtain a cohesive picture of the various FEM simulation methods available, their strengths and weaknesses, and their applicability in various simulation scenarios. The book is also a practical implementation guide for the visual effects developer, offering a lean yet adequate synopsis of the underlying mathematical theory. Chapter 1 introduces the quantitative descriptions used to capture the deformation of elastic solids, the concept of strain energy, and discusses how force and stress result as a response to deformation. Chapter 2 reviews a number of constitutive models, i.e., analytical laws linking deformation to the resulting force that has successfully been used in various graphics-oriented simulation tasks. Chapter 3 summarizes how deformation and force can be computed discretely on a tetrahedral mesh, and how an implicit integrator can be structured around this discretization. Finally, chapter 4 presents the state of the art in model reduction techniques for real-time FEM solid simulation and discusses which techniques are suitable for which applications. Topics discussed in this chapter include linear modal analysis, modal warping, subspace simulation, and domain decomposition.