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Mathematical Insights into Advanced Computer Graphics TechniquesPhysics-Based Computational Design for Digital Fabrication

Mathematical Insights into Advanced Computer Graphics Techniques: Physics-Based Computational... [Physics-based simulation models have been long studied in computer graphics. The current trend is to capture complex physical phenomena that have multi-physics, multi-scale, and multi-modality. Meanwhile, the advent of digital manufacturing techniques is also striking. The barrier of making objects with complex geometries and materials constantly lowers down. The confluence of numerical simulation models and powerful digital fabrication inspires us to rethink the design of objects that can be digitally manufactured. In this paper, I will present our work on physics-based simulation models and their use in various design tasks. I will show that seamless integration of simulation models into the design process opens the door to optimal, unrealized, and even unconventional product designs.] http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png

Mathematical Insights into Advanced Computer Graphics TechniquesPhysics-Based Computational Design for Digital Fabrication

Part of the Mathematics for Industry Book Series (volume 32)
Editors: Dobashi, Yoshinori; Kaji, Shizuo; Iwasaki, Kei
Zheng, Changxi
Mathematical Insights into Advanced Computer Graphics Techniques — Nov 28, 2018
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Publisher
Springer Singapore
Copyright
© Springer Nature Singapore Pte Ltd. 2019
ISBN
978-981-13-2849-7
Pages
133 –149
DOI
10.1007/978-981-13-2850-3_10
Publisher site
See Chapter on Publisher Site

Abstract

[Physics-based simulation models have been long studied in computer graphics. The current trend is to capture complex physical phenomena that have multi-physics, multi-scale, and multi-modality. Meanwhile, the advent of digital manufacturing techniques is also striking. The barrier of making objects with complex geometries and materials constantly lowers down. The confluence of numerical simulation models and powerful digital fabrication inspires us to rethink the design of objects that can be digitally manufactured. In this paper, I will present our work on physics-based simulation models and their use in various design tasks. I will show that seamless integration of simulation models into the design process opens the door to optimal, unrealized, and even unconventional product designs.]

Published: Nov 28, 2018

Keywords: Digital Fabrication; Physics-based Simulation Models; Digital Manufacturing; Acoustic Filter; Viscous Sheet

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