A Global Optimization Method for Remeshing Polygonal Surface of Arbitrary Topological Type(Algorithms)

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概要

• 論文の詳細を見る

• This article describes a new method for converting an arbitrary topology mesh into one having subdivision connectivity. First, a base mesh is produced by applying a sequence of edge collapse operations to the original mesh with irregular connectivity. Then, the base mesh is iteratively subdivided. Each subdivided mesh is optimized to reduce its distance from the original mesh and to improve its global smoothness and compactness. A set of corresponding point pairs, which is required to compute the distance from the original mesh to the subdivided mesh, is determined by combining the initial parameterization and the multi-resolution projection. Experimental results show that the proposed method yields good performance in terms of global smoothness, small distortion, and good compactness, compared with conventional methods.

• 社団法人電子情報通信学会の論文
• 2003-11-01

著者

• Kim Jaihie

  The Department Of Electrical And Computer Eng. Yonsei University

• KIM Jaemin

  School of Electronics and Electrical Engineering, Hongik University

• KANG Moongoo

  IN TOP SYSTEM

• CHO Seongwon

  School of Electronics and Electrical Engineering, Hongik University

• Cho Seongwon

  School Of Electronics And Electrical Engineering Hongik University

• Kim Jaemin

  School Of Electronics And Electrical Engineering Hongik University

関連論文

• A Global Optimization Method for Remeshing Polygonal Surface of Arbitrary Topological Type(Algorithms)
• A Global Optimization Method for Remeshing Polygonal Surface of Arbitrary Topological Type
• A Temporal Data Maintenance Method in an ATMS

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