If you missed SIGGRAPH 2017 watch a selection of recorded Live Streaming Sessions.
Meshing
If you missed SIGGRAPH 2017 watch a selection of recorded Live Streaming Sessions.
This paper presents a framework for designing shapes from diverse combinatorial patterns, where the vertex $1$-rings and the faces are as rotationally symmetric as possible and define such meshes as regular. The algorithm computes the geometry that brings out the symmetries encoded in the combinatorics.
Amir Vaxman
Universiteit Utrecht
Christian Müller
Technische Universität Wien
Ofir Weber
Bar Ilan University
This method for generating hexahedral-dominant meshes from input tetrahedral meshes computes a frame field, then integrates it, producing hexahedra while leaving tetrahedra in singular regions.
Dmitry Sokolov
Université de Lorraine
Nicolas Ray
Inria Nancy - Grand-Est
Lionel Untereiner
Inria Nancy - Grand-Est
Bruno Levy
Inria Nancy - Grand-Est
A robust and efficient field-aligned volumetric meshing algorithm that produces hex-dominant meshes (meshes that are predominantly composed of hexahedral elements while containing a small number of irregular polyhedra).
Xifeng Gao
New York University
Wenzel Jakob
École Polytechnique Fédérale de Lausanne
Marco Tarini
Università degli Studi dell'Insubria, Consiglio Nazionale delle Ricerche
Daniele Panozzo
New York University
In this algorithm for computing fields of orthogonal directions within a volume from its boundary mesh, fields can be sampled at arbitrary points, with application to hexahedral meshing.
Justin Solomon
Massachusetts Institute of Technology
Amir Vaxman
Universiteit Utrecht
David Bommes
Rheinisch-Westfälische Technische Hochschule Aachen
