An Adapted Parameterization for Smooth Geometry Images

Geometry images are important representations of 3D geometry models. Smooth geometry images contributes to low approximation error and high image compressibility. We present an adapted parameterization method to generate a smooth geometry image. It is quite challenging to directly modify the parameter domain to smooth geometry images. Our novel idea is that we use an indirect way to construct a resulting parameter domain according to the desired geometry image. We first move image pixels according to the current parameter domain to decrease the local linear error. Then we formulate a relationship between the moved image pixels and the current parameter domain. Finally, we use the relationship to update the parameter domain by restituting the image pixels to their original positions. The process will continue until the local linear error is less than a given threshold or the number of iterations is larger than a given threshold. Experimental results illustrate that geometry images generated by our method have low linear errors and low approximation errors under different sampling resolutions.

[1]  Kwan H. Lee,et al.  Feature detection of triangular meshes based on tensor voting theory , 2009, Comput. Aided Des..

[2]  Pierre Poulin,et al.  Preserving sharp edges in geometry images , 2009, Graphics Interface.

[3]  Hans-Peter Seidel,et al.  A fast and simple stretch-minimizing mesh parameterization , 2004, Proceedings Shape Modeling Applications, 2004..

[4]  Lap-Pui Chau,et al.  Streaming 3D meshes using spectral geometry images , 2009, ACM Multimedia.

[5]  David P. Dobkin,et al.  MAPS: multiresolution adaptive parameterization of surfaces , 1998, SIGGRAPH.

[6]  Scott Schaefer,et al.  Smooth Geometry Images , 2003, Symposium on Geometry Processing.

[7]  Hao Zhang,et al.  Spectral Methods for Mesh Processing and Analysis , 2007, Eurographics.

[8]  Tong-Yee Lee,et al.  Adaptive Geometry Image , 2008, IEEE Transactions on Visualization and Computer Graphics.

[9]  Ligang Liu,et al.  A Local/Global Approach to Mesh Parameterization , 2008, Comput. Graph. Forum.

[10]  Baocai Yin,et al.  A Novel Geometry Image Coding , 2009, AMT.

[11]  Craig Gotsman,et al.  Spectral compression of mesh geometry , 2000, EuroCG.

[12]  Keenan Crane,et al.  Rectangular multi-chart geometry images , 2006, SGP '06.

[13]  Shi-Min Hu,et al.  Optimal Surface Parameterization Using Inverse Curvature Map , 2008, IEEE Transactions on Visualization and Computer Graphics.

[14]  Bruno Lévy,et al.  Mesh parameterization: theory and practice , 2007, SIGGRAPH Courses.

[15]  Hugues Hoppe,et al.  Inter-surface mapping , 2004, ACM Trans. Graph..

[16]  Pierre Alliez,et al.  Recent advances in compression of 3D meshes , 2005, 2005 13th European Signal Processing Conference.

[17]  S. Mallat,et al.  Surface compression with geometric bandelets , 2005, ACM Trans. Graph..

[18]  Bruno Lévy,et al.  Least squares conformal maps for automatic texture atlas generation , 2002, ACM Trans. Graph..

[19]  Joonki Paik,et al.  Normal Vector Voting: Crease Detection and Curvature Estimation on Large, Noisy Meshes , 2002, Graph. Model..

[20]  Mark Meyer,et al.  Intrinsic Parameterizations of Surface Meshes , 2002, Comput. Graph. Forum.

[21]  Hugues Hoppe,et al.  Spherical parametrization and remeshing , 2003, ACM Trans. Graph..

[22]  Pedro V. Sander,et al.  Signal-specialized parameterization for piecewise linear reconstruction , 2004, SGP '04.

[23]  Pedro V. Sander,et al.  Multi-Chart Geometry Images , 2003, Symposium on Geometry Processing.

[24]  Lap-Pui Chau,et al.  Spectral Geometry Image: Image Based 3D Models for Digital Broadcasting Applications , 2011, IEEE Transactions on Broadcasting.

[25]  Steven J. Gortler,et al.  Geometry images , 2002, SIGGRAPH.

[26]  Michael S. Floater,et al.  Mean value coordinates , 2003, Comput. Aided Geom. Des..

[27]  Shengfa Wang,et al.  Diffusion Tensor Weighted Harmonic Fields for Feature Classification , 2011, PG.

[28]  Tony DeRose,et al.  Multiresolution analysis of arbitrary meshes , 1995, SIGGRAPH.