Piecewise surface flattening for non-distorted texture mapping
Proceedings of the 18th annual conference on Computer graphics and interactive techniques
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CVGIP: Graphical Models and Image Processing
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Computer Aided Geometric Design
Texture mapping progressive meshes
Proceedings of the 28th annual conference on Computer graphics and interactive techniques
Least squares conformal maps for automatic texture atlas generation
Proceedings of the 29th annual conference on Computer graphics and interactive techniques
Smoothing an overlay grid to minimize linear distortion in texture mapping
ACM Transactions on Graphics (TOG)
Fitting a Woven Cloth Model to a Curved Surface: Dart Insertion
IEEE Computer Graphics and Applications
Geodesic curve computations on surfaces
Computer Aided Geometric Design
Hierarchical mesh decomposition using fuzzy clustering and cuts
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SMI '02 Proceedings of the Shape Modeling International 2002 (SMI'02)
A Fast and Simple Stretch-Minimizing Mesh Parameterization
SMI '04 Proceedings of the Shape Modeling International 2004
Woven model based geometric design of elastic medical braces
Computer-Aided Design
Computing Length-Preserved Free Boundary for Quasi-Developable Mesh Segmentation
IEEE Transactions on Visualization and Computer Graphics
Towards flattenable mesh surfaces
Computer-Aided Design
WireWarping: A fast surface flattening approach with length-preserved feature curves
Computer-Aided Design
Pattern computation for compression garment
Proceedings of the 2008 ACM symposium on Solid and physical modeling
Interactive 3D garment design with constrained contour curves and style curves
Computer-Aided Design
A physically based method for triangulated surface flattening
Computer-Aided Design
A surface flattening method based on numerical simulation
ASM '07 The 16th IASTED International Conference on Applied Simulation and Modelling
Pattern computation for compression garment by a physical/geometric approach
Computer-Aided Design
Mesh parameterization based on one-step inverse forming
Computer-Aided Design
Flexible shape control for automatic resizing of apparel products
Computer-Aided Design
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This paper presents a robust and efficient surface flattening approach based on fitting a woven-like mesh model on a 3D freeform surface. The fitting algorithm is based on tendon node mapping (TNM) and diagonal node mapping (DNM), where TNM determines the position of a new node on the surface along the warp or weft direction and DNM locates a node along the diagonal direction. During the 3D fitting process, strain energy of the woven model is released by a diffusion process that minimizes the deformation between the resultant 2D pattern and the given surface. Nodes mapping and movement in the proposed approach are based on the discrete geodesic curve generation algorithm, so no parametric surface or pre-parameterization is required. After fitting the woven model onto the given surface, a continuous planar coordinate mapping is established between the 3D surface and its counterpart in the plane, based on the idea of geodesic interpolation of the mappings of the nodes in the woven model. The proposed approach accommodates surfaces with darts, which are commonly utilized in clothing industry to reduce the stretch of surface forming and flattening. Both isotropic and anisotropic materials are supported.