Feature-preserved morphing method for panel design

In order to design and manufacture the new products with less time and cost, the factories want to remodel based on the older products, it makes the feature-preserved morphing parameterization technology become a new subject and attract increasing attention. To meet this requirement, a feature-preserved morphing method for panel design under complex rigid constraints, abbreviated as FPM, is proposed in this paper. It can also be applied in the parameterization design and modeling for auto-body using digital models. The contrastive implementation results of the experiments conducted using CAD data by the methods of FPM and FFD (Free-Form Deformation) are presented separately, which demonstrate the applicability and validity of FPM in the field of feature-preserved parameterization morphing design.

[1]  Olga Sorkine,et al.  Laplacian Mesh Processing , 2005 .

[2]  John M. Snyder,et al.  Large mesh deformation using the volumetric graph Laplacian , 2005, SIGGRAPH '05.

[3]  Jian Ping Shao Computational Fluid Dynamics for Engineers , 2005 .

[4]  Shi-Min Hu,et al.  Direct manipulation of FFD: efficient explicit solutions and decomposible multiple point constraints , 2001, The Visual Computer.

[5]  Christian Rössl,et al.  Differential coordinates for interactive mesh editing , 2004, Proceedings Shape Modeling Applications, 2004..

[6]  Bobbi Harrison,et al.  Long Beach, California , 2002 .

[7]  Joe F. Thompson,et al.  Numerical grid generation: Foundations and applications , 1985 .

[8]  Just L. Herder,et al.  Design of a Statically Balanced Tensegrity Mechanism , 2006 .

[9]  Kun Zhou,et al.  Mesh editing with poisson-based gradient field manipulation , 2004, SIGGRAPH 2004.

[10]  Kun-An Hsiao,et al.  Affective product shapes through image morphing , 2003, DPPI '03.

[11]  Marc Alexa,et al.  A sketch-based interface for detail-preserving mesh editing , 2005, SIGGRAPH 2005.

[12]  Georges M. Fadel,et al.  Vehicle Component Layout With Shape Morphing: An Initial Study , 2006, DAC 2006.

[13]  Thomas W. Sederberg,et al.  Free-form deformation of solid geometric models , 1986, SIGGRAPH.

[14]  Hiroshi Masuda,et al.  A Constrained Least Squares Approach to Interactive Mesh Deformation , 2006, IEEE International Conference on Shape Modeling and Applications 2006 (SMI'06).

[15]  Tomoyuki Nishita,et al.  B-spline free-form deformation of polygonal object as trimmed Bézier surfaces , 2002, The Visual Computer.