Robust Watertight Manifold Surface Generation Method for ShapeNet Models
J. Huang, H. Su, and L. Guibas. (2018)cite arxiv:1802.01698Comment: Algorithm for generating manifolds of ShapeNet Models.
Abstract
In this paper, we describe a robust algorithm for 2-Manifold generation of
various kinds of ShapeNet Models. The input of our pipeline is a triangle mesh,
with a set of vertices and triangular faces. The output of our pipeline is a
2-Manifold with vertices roughly uniformly distributed on the geometry surface.
Our algorithm uses an octree to represent the original mesh, and construct the
surface by isosurface extraction. Finally, we project the vertices to the
original mesh to achieve high precision. As a result, our method can be adopted
efficiently to all ShapeNet models with the guarantee of correct 2-Manifold
topology.
Description
[1802.01698] Robust Watertight Manifold Surface Generation Method for ShapeNet Models
%0 Generic
%1 huang2018robust
%A Huang, Jingwei
%A Su, Hao
%A Guibas, Leonidas
%D 2018
%K 2018 3D arxiv computational-geometry manifold mesh stanford
%T Robust Watertight Manifold Surface Generation Method for ShapeNet Models
%U http://arxiv.org/abs/1802.01698
%X In this paper, we describe a robust algorithm for 2-Manifold generation of
various kinds of ShapeNet Models. The input of our pipeline is a triangle mesh,
with a set of vertices and triangular faces. The output of our pipeline is a
2-Manifold with vertices roughly uniformly distributed on the geometry surface.
Our algorithm uses an octree to represent the original mesh, and construct the
surface by isosurface extraction. Finally, we project the vertices to the
original mesh to achieve high precision. As a result, our method can be adopted
efficiently to all ShapeNet models with the guarantee of correct 2-Manifold
topology.
@misc{huang2018robust,
abstract = {In this paper, we describe a robust algorithm for 2-Manifold generation of
various kinds of ShapeNet Models. The input of our pipeline is a triangle mesh,
with a set of vertices and triangular faces. The output of our pipeline is a
2-Manifold with vertices roughly uniformly distributed on the geometry surface.
Our algorithm uses an octree to represent the original mesh, and construct the
surface by isosurface extraction. Finally, we project the vertices to the
original mesh to achieve high precision. As a result, our method can be adopted
efficiently to all ShapeNet models with the guarantee of correct 2-Manifold
topology.},
added-at = {2018-04-28T13:54:05.000+0200},
author = {Huang, Jingwei and Su, Hao and Guibas, Leonidas},
biburl = {https://www.bibsonomy.org/bibtex/2e26c24e303d4a417dbea4678772adc36/achakraborty},
description = {[1802.01698] Robust Watertight Manifold Surface Generation Method for ShapeNet Models},
interhash = {22d7c77ff15683bdb8ac2f91f6e11c21},
intrahash = {e26c24e303d4a417dbea4678772adc36},
keywords = {2018 3D arxiv computational-geometry manifold mesh stanford},
note = {cite arxiv:1802.01698Comment: Algorithm for generating manifolds of ShapeNet Models},
timestamp = {2018-04-28T13:55:06.000+0200},
title = {Robust Watertight Manifold Surface Generation Method for ShapeNet Models},
url = {http://arxiv.org/abs/1802.01698},
year = 2018
}