Robust edge-preserving surface mesh polycube deformation

Hui Zhao; Na Lei; Xuan Li; Peng Zeng; Ke Xu; Xianfeng Gu

doi:10.1007/s41095-017-0100-x

Robust edge-preserving surface mesh polycube deformation

Hui Zhao
, Na Lei
, Xuan Li
, Peng Zeng
, Ke Xu
, Xianfeng Gu

Computer Science

Tsinghua University
Dalian University of Technology
Key Laboratory for Ubiquitous Network and Service Software of Liaoning Province
Stony Brook University
Beijing University of Technology

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

Polycube construction and deformation are essential problems in computer graphics. In this paper, we present a robust, simple, efficient, and automatic algorithm to deform the meshes of arbitrary shapes into polycube form. We derive a clear relationship between a mesh and its corresponding polycube shape. Our algorithm is edge-preserving, and works on surface meshes with or without boundaries. Our algorithm outperforms previous ones with respect to speed, robustness, and efficiency. Our method is simple to implement. To demonstrate the robustness and effectivity of our method, we have applied it to hundreds of models of varying complexity and topology. We demonstrate that our method compares favorably to other state-of-the-art polycube deformation methods.

Original language	English
Pages (from-to)	33-42
Number of pages	10
Journal	Computational Visual Media
Volume	4
Issue number	1
DOIs	https://doi.org/10.1007/s41095-017-0100-x
State	Published - Mar 1 2018

Keywords

deformation
polycube geometry
polycube topology
stretching energy

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10.1007/s41095-017-0100-x

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title = "Robust edge-preserving surface mesh polycube deformation",

abstract = "Polycube construction and deformation are essential problems in computer graphics. In this paper, we present a robust, simple, efficient, and automatic algorithm to deform the meshes of arbitrary shapes into polycube form. We derive a clear relationship between a mesh and its corresponding polycube shape. Our algorithm is edge-preserving, and works on surface meshes with or without boundaries. Our algorithm outperforms previous ones with respect to speed, robustness, and efficiency. Our method is simple to implement. To demonstrate the robustness and effectivity of our method, we have applied it to hundreds of models of varying complexity and topology. We demonstrate that our method compares favorably to other state-of-the-art polycube deformation methods.",

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AU - Zhao, Hui

AU - Lei, Na

AU - Li, Xuan

AU - Zeng, Peng

AU - Xu, Ke

AU - Gu, Xianfeng

PY - 2018/3/1

Y1 - 2018/3/1

N2 - Polycube construction and deformation are essential problems in computer graphics. In this paper, we present a robust, simple, efficient, and automatic algorithm to deform the meshes of arbitrary shapes into polycube form. We derive a clear relationship between a mesh and its corresponding polycube shape. Our algorithm is edge-preserving, and works on surface meshes with or without boundaries. Our algorithm outperforms previous ones with respect to speed, robustness, and efficiency. Our method is simple to implement. To demonstrate the robustness and effectivity of our method, we have applied it to hundreds of models of varying complexity and topology. We demonstrate that our method compares favorably to other state-of-the-art polycube deformation methods.

AB - Polycube construction and deformation are essential problems in computer graphics. In this paper, we present a robust, simple, efficient, and automatic algorithm to deform the meshes of arbitrary shapes into polycube form. We derive a clear relationship between a mesh and its corresponding polycube shape. Our algorithm is edge-preserving, and works on surface meshes with or without boundaries. Our algorithm outperforms previous ones with respect to speed, robustness, and efficiency. Our method is simple to implement. To demonstrate the robustness and effectivity of our method, we have applied it to hundreds of models of varying complexity and topology. We demonstrate that our method compares favorably to other state-of-the-art polycube deformation methods.

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KW - polycube geometry

KW - polycube topology

KW - stretching energy

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JO - Computational Visual Media

JF - Computational Visual Media

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Robust edge-preserving surface mesh polycube deformation

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Keywords

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