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πŸ“

Biomechanical Models for Soft Tissue Simulation

✍ Scribed by Walter Maurel, Prof. Daniel Thalmann, Yin Wu, Prof. Nadia Magnenat Thalmann (auth.)

Publisher
Springer-Verlag Berlin Heidelberg
Year
1998
Tongue
English
Leaves
188
Series
Esprit Basic Research Series
Edition
1
Category
Library
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✦ Synopsis

Numerous experiments reported in the biomechanical literature have shown that soft tissues are highly nonlinear viscoelastic materials. Attempts to model their mechanical behaviour have led to different kinds of mathematical relationships depending on the approach adopted. The use of these models for the realistic simulation of skeletal soft tissues requires basic knowledge of the theory of nonlinear mechanics as well as knowledge of the associated incremental finite element methods. Although many documents have been published in these different areas, few of them give enough details to understand how the models are related to the underlying mechanical theory and how incremental methods are applied to achieve finite element simulations.
This report has been developed, as part of the European Esprit project CHARM, to provide an overview of the available models in light of theoretical mechanics and finite element methods, for the realistic simulation of the human muscles, tendons and skin.

✦ Table of Contents

Front Matter....Pages I-XVIII
Soft Tissue Physiology....Pages 1-23
Theoretical Mechanics....Pages 25-49
Resolution Methods....Pages 51-78
Constitutive Modeling....Pages 79-120
Muscle Contraction Modeling....Pages 121-140
Application Perspectives....Pages 141-169
Back Matter....Pages 171-174

✦ Subjects

Computer Graphics; Simulation and Modeling; Health Informatics

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