Identity statement area
Reference TypeConference Paper (Conference Proceedings)
Last Update2005: (UTC) administrator
Metadata Last Update2020: (UTC) administrator
Citation KeyLageLewiLopeVelh:2005:ScToDa
TitleCHF: A scalable topological data structure for tetrahedral meshes
Access Date2021, Nov. 27
Number of Files1
Size226 KiB
Context area
Author1 Lage, Marcos
2 Lewiner, Thomas
3 Lopes, Hélio
4 Velho, Luiz
Affiliation1 PUC–Rio — Departamento de Matemática — Matmídia Project — Rio de Janeiro — Brazil
2 INRIA — Géométrica Project — Sophia Antipolis — France
3 IMPA — Visgraf Project — Rio de Janeiro — Brazil
EditorRodrigues, Maria Andréia Formico
Frery, Alejandro César
Conference NameBrazilian Symposium on Computer Graphics and Image Processing, 18 (SIBGRAPI)
Conference LocationNatal
Date9-12 Oct. 2005
PublisherIEEE Computer Society
Publisher CityLos Alamitos
Book TitleProceedings
Tertiary TypeFull Paper
History (UTC)2005-07-06 12:15:21 :: tomlew -> banon ::
2005-07-07 19:44:15 :: banon -> tomlew ::
2008-07-17 14:10:59 :: tomlew -> banon ::
2008-08-26 15:17:01 :: banon -> administrator ::
2009-08-13 20:37:44 :: administrator -> banon ::
2010-08-28 20:01:17 :: banon -> administrator ::
2020-02-19 03:19:08 :: administrator -> :: 2005
Content and structure area
Is the master or a copy?is the master
Content Stagecompleted
Content TypeExternal Contribution
KeywordsGeometric Modeling
Data Structures
Object Oriented Programming
Generic Containers
AbstractThis work introduces a scalable topological data structure for manifold tetrahedral meshes called Compact HalfFace (CHF). It provides a high degree of scalability, since it is able to optimize the memory consumption / execution time ratio for different applications and data by using features of its different levels. An objectoriented API using class inheritance and virtual instantiation enables a unique interface for each function at any level. CHF requires very few memory, is simple to implement and easy to use, since it substitutes pointers by container of integers and basic bitwise rules.
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Target FileCHF_Sibgrapi_final.pdf
User Grouptomlew
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