Dynamic mesh optimization for polygonized implicit surfaces with sharp features

This source preferred by Alexander Pasko

Authors: Ohtake, Y., Belyaev, A. and Pasko, A.

http://hyperfun.org/TVC02obp.pdf

Journal: Visual Computer

Volume: 19

Pages: 115-126

ISSN: 0178-2789

DOI: 10.1007/s00371-002-0181-z116

The paper presents a novel approach to accurate polygonization of implicit surfaces with sharp features. The approach is based on mesh evolution towards a given implicit surface with simultaneous control of the mesh vertex positions and mesh normals. Given an initial polygonization of an implicit surface, a mesh evolution process initialized by the polygonization is used. The evolving mesh converges to a limit mesh which delivers a high quality approximation of the implicit surface. For analyzing how close the evolving mesh approaches the implicit surface we use two error metrics. The metrics measure deviations of the mesh vertices from the implicit surface and deviations of mesh normals from the normals of the implicit surface.

This data was imported from Scopus:

Authors: Ohtake, Y., Belyaev, A. and Pasko, A.

Journal: Visual Computer

Volume: 19

Issue: 2-3

Pages: 115-126

ISSN: 0178-2789

The paper presents a novel approach for accurate polygonization of implicit surfaces with sharp features. The approach is based on mesh evolution toward a given implicit surface with simultaneous control of the mesh vertex positions and mesh normals. Given an initial polygonization of an implicit surface, a mesh evolution process initialized by the polygonization is used. The evolving mesh converges to a limit mesh which delivers a high-quality approximation of the implicit surface. For analyzing how close the evolving mesh approaches the implicit surface, we use two error metrics: the metrics measure deviations of the mesh vertices from the implicit surface and deviations of mesh normals from the normals of the implicit surface.

This data was imported from Web of Science (Lite):

Authors: Ohtake, Y., Belyaev, A. and Pasko, A.

Journal: VISUAL COMPUTER

Volume: 19

Issue: 2-3

Pages: 115-126

eISSN: 1432-2315

ISSN: 0178-2789

DOI: 10.1007/s00371-002-0181-z

The data on this page was last updated at 04:46 on November 24, 2017.