Corner-Sharing Tetrahedra for Modeling Micro-Structure
Computational Geometry
2020-05-15 v1 Discrete Mathematics
Abstract
State-of-the-art representations of volumetric multi-scale shape and structure can be classified into three broad categories: continuous, continuous-from-discrete, and discrete representations. We propose modeling micro-structure with a class of discrete Corner-Sharing Tetrahedra (CoSTs). CoSTs can represent bar-joint, tensegrity, line-incidence, and similar constraint systems that capture local physical constraints and global multi-scale properties for design and analysis. The paper develops a palette of simple geometry processing operations on CoSTs including graph manipulation, hierarchical refinement, randomization, and generating associated continuous representations.
Cite
@article{arxiv.1806.05528,
title = {Corner-Sharing Tetrahedra for Modeling Micro-Structure},
author = {Meera Sitharam and Jeremy Youngquist and Maxwell Nolan and Jörg Peters},
journal= {arXiv preprint arXiv:1806.05528},
year = {2020}
}