Hybrid geometry / topology based mesh segmentation for reverse engineering

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dc.citation.journalTitleCOMPUTERS & GRAPHICS-UK
dc.contributor.authorMejia D.
dc.contributor.authorRuiz-Salguero O.
dc.contributor.authorSánchez J.R.
dc.contributor.authorPosada J.
dc.contributor.authorMoreno A.
dc.contributor.authorCadavid C.A.
dc.contributor.departmentUniversidad EAFIT. Departamento de Cienciasspa
dc.contributor.researchgroupMatemáticas y Aplicacionesspa
dc.creatorMejia D.
dc.creatorRuiz-Salguero O.
dc.creatorSánchez J.R.
dc.creatorPosada J.
dc.creatorMoreno A.
dc.creatorCadavid C.A.
dc.date.accessioned2021-04-12T14:04:22Z
dc.date.available2021-04-12T14:04:22Z
dc.date.issued2018-06-01
dc.description.abstractMesh segmentation and parameterization are crucial for Reverse Engineering (RE). Bijective parameterizations of the sub-meshes are a sine-qua-non test for segmentation. Current segmentation methods use either (1) topologic or (2) geometric criteria to partition the mesh. Reported topology-based segmentations produce large sub-meshes which reject parameterizations. Geometry-based segmentations are very sensitive to local variations in dihedral angle or curvatures, thus producing an exaggerated large number of small sub-meshes. Although small sub-meshes accept nearly isometric parameterizations, this significant granulation defeats the intent of synthesizing a usable Boundary Representation (compulsory for RE). In response to these limitations, this article presents an implementation of a hybrid geometry / topology segmentation algorithm for mechanical workpieces. This method locates heat transfer constraints (topological criterion) in low frequency neighborhoods of the mesh (geometric criterion) and solves for the resulting temperature distribution on the mesh. The mesh partition dictated by the temperature scalar map results in large, albeit parameterizable, sub-meshes. Our algorithm is tested with both benchmark repository and physical piece scans data. The experiments are successful, except for the well - known cases of topological cylinders, which require a user - introduced boundary along the cylinder generatrices. © 2018 Elsevier Ltdeng
dc.identifierhttps://eafit.fundanetsuite.com/Publicaciones/ProdCientif/PublicacionFrw.aspx?id=8009
dc.identifier.doi10.1016/j.cag.2018.03.004
dc.identifier.issn00978493
dc.identifier.issn18737684
dc.identifier.otherWOS;000436219500005
dc.identifier.otherSCOPUS;2-s2.0-85045197970
dc.identifier.urihttp://hdl.handle.net/10784/27711
dc.language.isoengeng
dc.publisherPERGAMON-ELSEVIER SCIENCE LTD
dc.relation.urihttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85045197970&doi=10.1016%2fj.cag.2018.03.004&partnerID=40&md5=a5852e742f7962cc5d7547415c011871
dc.rightshttps://v2.sherpa.ac.uk/id/publication/issn/0097-8493
dc.sourceCOMPUTERS & GRAPHICS-UK
dc.subjectComputer aided designeng
dc.subjectComputer aided engineeringeng
dc.subjectCylinders (shapes)eng
dc.subjectDihedral angleeng
dc.subjectHeat transfereng
dc.subjectImage segmentationeng
dc.subjectParameterizationeng
dc.subjectReverse engineeringeng
dc.subjectTopologyeng
dc.subjectBoundary representationseng
dc.subjectCAD/CAM/CAEeng
dc.subjectHybrid geometrieseng
dc.subjectLocal variationseng
dc.subjectMesh segmentationeng
dc.subjectSegmentation algorithmseng
dc.subjectSegmentation methodseng
dc.subjectTopological criteriaeng
dc.subjectMesh generationeng
dc.titleHybrid geometry / topology based mesh segmentation for reverse engineeringeng
dc.typearticleeng
dc.typeinfo:eu-repo/semantics/articleeng
dc.typeinfo:eu-repo/semantics/publishedVersioneng
dc.typepublishedVersioneng
dc.type.localArtículospa

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