A Virtual Cloth Manipulation System for Clothing Design

We have been studied virtualization of draping which is one of a design method for clothing. It is desirable to adopt a man-machine interface in the same way as the real world for virtual draping. For this purpose, motion of hand is detected by Leap Motion as a sensor. This sensor can detect not only the motion of hand but the motion of fingers. According to the motion of hand or fingers in the real world, hand model in the virtual world is moved. Cloth is modeled with simple particles and springs, and dynamical change of cloth model form is obtained by numerical integration of motion equation. The interaction between the hand model and the cloth model is enabled, and then it is possible to grab the cloth model by the hand model in the virtual world.

[1]  Xiaogang Jin,et al.  Interactive virtual try-on clothing design systems , 2010, Comput. Aided Des..

[2]  Shigeru Inui,et al.  Handling of Virtual Cloth , 2014, HCI.

[3]  P. Y. Mok,et al.  Block pattern generation: From parameterizing human bodies to fit feature-aligned and flattenable 3D garments , 2012, Comput. Ind..

[4]  Ian T. Foster,et al.  Grid Services for Distributed System Integration , 2002, Computer.

[5]  Shigeru Inui,et al.  Cloth Model Handling by The Combination of Some Manipulations for Draping , 2014 .

[6]  Steven Tuecke,et al.  The Physiology of the Grid An Open Grid Services Architecture for Distributed Systems Integration , 2002 .

[7]  M S Waterman,et al.  Identification of common molecular subsequences. , 1981, Journal of molecular biology.

[8]  Ian Foster,et al.  The Grid 2 - Blueprint for a New Computing Infrastructure, Second Edition , 1998, The Grid 2, 2nd Edition.

[9]  Takeo Igarashi,et al.  DressUp: a 3D interface for clothing design with a physical mannequin , 2012, TEI.

[10]  Masayuki Takatera,et al.  Individual Pattern Making Using Computerized Draping Method for Clothing , 2006 .

[11]  Long Chen,et al.  Interactive 3D garment design with constrained contour curves and style curves , 2009, Comput. Aided Des..

[12]  Ian T. Foster,et al.  Grid information services for distributed resource sharing , 2001, Proceedings 10th IEEE International Symposium on High Performance Distributed Computing.

[13]  Thomas Steinke,et al.  ZIB Structure Prediction Pipeline: Composing a Complex Biological Workflow Through Web Services , 2006, Euro-Par.

[14]  Yongsheng Ma,et al.  Garment pattern definition, development and application with associative feature approach , 2010, Comput. Ind..

[15]  Shigeru Inui,et al.  Cloth Handling in Virtual Space , 2013, HCI.