Modeling 3D garments by examples

3D garments are created by assembling 2D patterns on human models in current mainstream garment modeling methods, which usually calls for professional design skills. The high coupling between the 2D pattern making and 3D garment design blocks the designers' creations. In this paper, a novel approach that decouples the high coupling between garment design and pattern making is proposed. Our approach is examples based. 3D new garment models are created on individual human models by compositing 3D parts from garment examples rather than 2D patterns. The main benefit of our approach is that it is easy to operate and capable to create elegant individualized garments with highly detailed geometries. Garment prototypes represented in Coons surface automatically generated from individual human models are used to guide the garment parts composition and locally parameterize the garment parts. With the local parameterization, the garment parts and the newly created garment models can be interactively edited by altering the parametric curves on the garment prototypes. Our approach makes it possible for both the designers and the common customers to express their creations and imaginations conveniently in a 3D graphical way.

[1]  Charlie C. L. Wang,et al.  Volume Parameterization for Design Automation of Customized Free-Form Products , 2007, IEEE Transactions on Automation Science and Engineering.

[2]  John F. Hughes,et al.  A Sketch-Based Interface for Clothing Virtual Characters , 2007, IEEE Computer Graphics and Applications.

[3]  Hans-Peter Seidel,et al.  Exploring Shape Variations by 3D‐Model Decomposition and Part‐based Recombination , 2012, Comput. Graph. Forum.

[4]  Caterina Rizzi,et al.  3D virtual apparel design for industrial applications , 2005, Comput. Aided Des..

[5]  Charlie C. L. Wang,et al.  Feature based 3D garment design through 2D sketches , 2003, Comput. Aided Des..

[6]  Jituo Li,et al.  Searching a 3D region for surface trimming , 2006 .

[7]  Kwang-Jin Choi,et al.  Research problems in clothing simulation , 2005, Comput. Aided Des..

[8]  Sungmin Kim,et al.  Basic garment pattern generation using geometric modeling method , 2007 .

[9]  Charlie C. L. Wang,et al.  Flexible shape control for automatic resizing of apparel products , 2012, Comput. Aided Des..

[10]  Alla Sheffer,et al.  Context-aware garment modeling from sketches , 2011, Comput. Graph..

[11]  Peter Schröder,et al.  Proceedings of the 2003 Eurographics/ACM SIGGRAPH symposium on Geometry processing , 2003 .

[12]  Daniel Cohen-Or,et al.  SnapPaste: an interactive technique for easy mesh composition , 2006, The Visual Computer.

[13]  Marc Alexa,et al.  As-rigid-as-possible surface modeling , 2007, Symposium on Geometry Processing.

[14]  Paul Merrell,et al.  Example-based model synthesis , 2007, SI3D.

[15]  Zheng Liu,et al.  Feature curve-net-based three-dimensional garment customization , 2013 .

[16]  Li Bai,et al.  Fitting 3D garment models onto individual human models , 2010, Comput. Graph..

[17]  Christian Rössl,et al.  Laplacian surface editing , 2004, SGP '04.

[18]  Yong-Jin Liu,et al.  Least squares quasi-developable mesh approximation , 2012, Comput. Aided Geom. Des..

[19]  Alla Sheffer,et al.  Design preserving garment transfer , 2012, ACM Trans. Graph..

[20]  Hongbo Fu,et al.  Optimal boundaries for Poisson mesh merging , 2007, Symposium on Solid and Physical Modeling.

[21]  Mark Meyer,et al.  Discrete Differential-Geometry Operators for Triangulated 2-Manifolds , 2002, VisMath.

[22]  Jituo Li,et al.  Customizing 3D garments based on volumetric deformation , 2011, Comput. Ind..

[23]  Jituo Li,et al.  Flattening triangulated surfaces using a mass-spring model , 2005 .

[24]  Nadia Magnenat-Thalmann,et al.  Resolving surface collisions through intersection contour minimization , 2006, SIGGRAPH 2006.

[25]  Charlie C. L. Wang,et al.  Mesh Composition on Models with Arbitrary Boundary Topology , 2008, IEEE Transactions on Visualization and Computer Graphics.

[26]  Peter Liepa,et al.  Filling Holes in Meshes , 2003, Symposium on Geometry Processing.

[27]  Szymon Rusinkiewicz,et al.  Modeling by example , 2004, SIGGRAPH 2004.