TY - GEN
T1 - SeamCut
T2 - SIGGRAPH Asia 2017 Technical Briefs, SA 2017
AU - Lucquin, Victor
AU - Deguy, Sébastien
AU - Boubekeur, Tamy
N1 - Publisher Copyright:
' 2017 Copyright held by the owner/author(s). Publication rights licensed to ACM.
PY - 2017/11/27
Y1 - 2017/11/27
N2 - Mesh parameterization consists in unwrapping mesh regions having the topology of a disk onto the 2D plane. is geometry process is fundamental for 2D texture mapping and instrumental for a number of surface analysis primitives. Typically, users execute automatic unwrapping algorithms on handmade disk-like patches, whose design, oen called “seaming” induces a massive amount of tedious manual actions to select the edges of the mesh that eventually form the regions boundaries i.e., the seams. We propose SeamCut, an analytic and interactive segmentation framework to build an organized set of curves, cuts and seams, prior to surface parameterization. While the cuts are in charge of dividing the mesh in semantic parts, the seams aim at minimizing parameterization distortion. To tailor them, our method analyzes the surface geometry using only sparse high level interactions on the surface, where we adopt a eld-based approach to generate the curves independently of the actual connectivity of the mesh. Once stable, the curve set may be used to remesh the input or snapped to the mesh edges, giving rise to a consistent mesh segmentation ready for automatic parameterization. We evaluate our live surface analysis system on a variety of models and report interactive performances.
AB - Mesh parameterization consists in unwrapping mesh regions having the topology of a disk onto the 2D plane. is geometry process is fundamental for 2D texture mapping and instrumental for a number of surface analysis primitives. Typically, users execute automatic unwrapping algorithms on handmade disk-like patches, whose design, oen called “seaming” induces a massive amount of tedious manual actions to select the edges of the mesh that eventually form the regions boundaries i.e., the seams. We propose SeamCut, an analytic and interactive segmentation framework to build an organized set of curves, cuts and seams, prior to surface parameterization. While the cuts are in charge of dividing the mesh in semantic parts, the seams aim at minimizing parameterization distortion. To tailor them, our method analyzes the surface geometry using only sparse high level interactions on the surface, where we adopt a eld-based approach to generate the curves independently of the actual connectivity of the mesh. Once stable, the curve set may be used to remesh the input or snapped to the mesh edges, giving rise to a consistent mesh segmentation ready for automatic parameterization. We evaluate our live surface analysis system on a variety of models and report interactive performances.
KW - Interactive mesh segmentation
KW - Shape parameterization
U2 - 10.1145/3145749.3149435
DO - 10.1145/3145749.3149435
M3 - Conference contribution
AN - SCOPUS:85040347718
T3 - SIGGRAPH Asia 2017 Technical Briefs, SA 2017
BT - SIGGRAPH Asia 2017 Technical Briefs, SA 2017
PB - Association for Computing Machinery, Inc
Y2 - 27 November 2017 through 30 November 2017
ER -