Article

Signal-specialized parametrization

Authors:

Pedro V. Sander,

Steven J. Gortler,

Hugues HoppeAuthors Info & Claims

EGRW '02: Proceedings of the 13th Eurographics workshop on Rendering

Pages 87 - 98

Published: 26 July 2002 Publication History

Abstract

To reduce memory requirements for texture mapping a model, we build a surface parametrization specialized to its signal (such as color or normal). Intuitively, we want to allocate more texture samples in regions with greater signal detail. Our approach is to minimize signal approximation error --- the difference between the original surface signal and its reconstruction from the sampled texture. Specifically, our signal-stretch parametrization metric is derived from a Taylor expansion of signal error. For fast evaluation, this metric is pre-integrated over the surface as a metric tensor. We minimize this nonlinear metric using a novel coarse-to-fine hierarchical solver, further accelerated with a fine-to-coarse propagation of the integrated metric tensor. Use of metric tensors permits anisotropic squashing of the parametrization along directions of low signal gradient. Texture area can often be reduced by a factor of 4 for a desired signal accuracy compared to non-specialized parametrizations.

References

[1]

Briggs, W. A multigrid tutorial, SIAM, Philadelphia, 1987.

Digital Library

[2]

Cignoni, P., Montani, C., Rocchini, C., and Scopigno, R. A general method for recovering attribute values on simplified meshes. IEEE Visualization 1998, pp. 59--66.

Digital Library

[3]

Cohen, J., Olano, M., and Manocha, D. Appearance-preserving simplification. SIGGRAPH 1998, pp. 115--122.

Digital Library

[4]

Duchamp, T., Certain, A., DeRose, A., and Stuetzle, W. Hierarchical computation of PL harmonic embeddings. Technical report, University of Washington, 1997.

[5]

Eck, M., DeRose, T., Duchamp, T., Hoppe, H., Lounsbery, M., and Stuetzle, W. Multiresolution analysis of arbitrary meshes. SIGGRAPH 1995, pp. 173--182.

Digital Library

[6]

Floater, M. Parametrization and smooth approximation of surface triangulations. CAGD 14(3), pp. 231--250, 1997.

Digital Library

[7]

Garland, M., and Heckbert, P. Surface simplification using quadric error metrics. SIGGRAPH 1997, pp. 209--216.

Digital Library

[8]

Garland, M., Willmott, A., and Heckbert, P. Hierarchical face clustering on polygonal surfaces. Symposium on Interactive 3D Graphics 2001, pp. 49--58.

Digital Library

[9]

Haker, S., Angenent, S., Tannenbaum, S, Kikinis, R., Sapiro, G, and Halle, M. Conformal surface parameterization for texture mapping. IEEE Trans. on Visual. and Comp. Graphics, 6(2), 2000.

Digital Library

[10]

Hoppe, H. Progressive meshes. SIGGRAPH 1996, pp. 99--108.

Digital Library

[11]

Hoppe, H. New quadric error metric for simplifying meshes with appearance attributes. IEEE Visualization 1999, pp. 59--66.

Digital Library

[12]

Hormann, K., and Greiner, G. MIPS: An efficient global parametrization method. In Curve and Surface Design: Saint-Malo 1999, Vanderbilt University Press, pp. 153--162.

[13]

Hormann, K., Greiner, G., and Campagna, S. Hierarchical parametrization of triangulated surfaces. Vision, Modeling, and Visualization 1999, pp. 219--226.

[14]

Hunter, A., and Cohen, J. Uniform frequency images: adding geometry to images to produce space-efficient textures. IEEE Visualization 2000, pp. 243--250.

Digital Library

[15]

Igarashi, T., and Cosgrove, D. Adaptive unwrapping for interactive texture painting. Symposium on Interactive 3D Graphics 2001, pp. 209--216.

Digital Library

[16]

Krishnamurthy, V., and Levoy, M. Fitting smooth surfaces to dense polygon meshes. SIGGRAPH 1996, pp. 313--324.

Digital Library

[17]

Lee, A., Sweldens, W., Schröder, P., Cowsar, L., and Dobkin, D. MAPS: Multiresolution adaptive parametrization of surfaces. SIGGRAPH 1998, pp. 95--104.

Digital Library

[18]

Lévy, B., and Mallet, J.-L. Non-distorted texture mapping for sheared triangulated meshes. SIGGRAPH 1998, pp. 343--352.

Digital Library

[19]

Maillot, J., Yahia, H., and Verroust, A. Interactive texture mapping. SIGGRAPH 1993, pp. 27--34.

Digital Library

[20]

Malzbender, T., Gelb, D., and Wolters, H. Polynomial texture maps. SIGGRAPH 2001, pp. 519--528.

Digital Library

[21]

Max, N. Horizon mapping: Shadows for bumpmapped surfaces. The Visual Computer, July 1998, pp. 109--117.

[22]

Sander, P., Gu, X., Gortler, S., Hoppe, H., and Snyder, J. Silhouette clipping. SIGGRAPH 2000, pp. 327--334.

Digital Library

[23]

Sander, P., Snyder, J., Gortler, S., and Hoppe, H. Texture mapping progressive meshes. SIGGRAPH 2001, pp. 409--416.

Digital Library

[24]

Sloan, P.-P., Weinstein, D., and Brederson, J. Importance driven texture coordinate optimization. Computer Graphics Forum (Eurographics '98) 17(3), pp. 97--104.

[25]

Terzopoulos, D., and Vasilescu, M. Sampling and reconstruction with adaptive meshes. CVPR 1991, pp. 70--75.

Cited By

Liu HFu XYe CChai SLiu L(2019)Atlas refinement with bounded packing efficiencyACM Transactions on Graphics10.1145/3306346.332300138:4(1-13)Online publication date: 12-Jul-2019
https://dl.acm.org/doi/10.1145/3306346.3323001
Liu HZhang XFu XDong ZLiu L(2019)Computational peeling art designACM Transactions on Graphics10.1145/3306346.332300038:4(1-12)Online publication date: 12-Jul-2019
https://dl.acm.org/doi/10.1145/3306346.3323000
Limper MVining NSHEFFER A(2018)Box cutterACM Transactions on Graphics10.1145/3197517.320132837:4(1-13)Online publication date: 30-Jul-2018
https://dl.acm.org/doi/10.1145/3197517.3201328
Show More Cited By

Index Terms

Signal-specialized parametrization
1. Computing methodologies
  1. Artificial intelligence
    1. Computer vision
      1. Image and video acquisition
        3D imaging
  2. Computer graphics
    1. Animation

Recommendations

Universal parametrization and interpolation on cubic surfaces

Universal parametrizations make it possible to find all rational parametrizations and all rational curves on an implicit surface. The rational curves and patches can be described with optimal degree as images under such a universal parametrization. ...
On parametrization of interpolating curves

In parametric curve interpolation there is given a sequence of data points and corresponding parameter values (nodes), and we want to find a parametric curve that passes through data points at the associated parameter values. We consider those ...
Signal-specialized parameterization for piecewise linear reconstruction
SGP '04: Proceedings of the 2004 Eurographics/ACM SIGGRAPH symposium on Geometry processing

We propose a metric for surface parameterization specialized to its signal that can be used to create more efficient, high-quality texture maps. Derived from Taylor expansion of signal error, our metric predicts the signal approximation error - the ...

Comments

Information & Contributors

Information

Published In

cover image ACM Other conferences

EGRW '02: Proceedings of the 13th Eurographics workshop on Rendering

July 2002

336 pages

ISBN:1581135343

Editors:
Simon Gibson
University of Manchester
,
Paul Debevec
USC Institute for Creative Technologies

Sponsors

EUROGRAPHICS: The European Association for Computer Graphics

Publisher

Eurographics Association

Goslar, Germany

Publication History

Published: 26 July 2002

Check for updates

Qualifiers

Article

Conference

EGRW02

Sponsor:

EUROGRAPHICS

EGRW02: Eurographics Workshop on Rendering

June 26 - 28, 2002

Pisa, Italy

Contributors

Other Metrics

View Article Metrics

Bibliometrics & Citations

Bibliometrics

Article Metrics

63
Total Citations
View Citations
497
Total Downloads

Downloads (Last 12 months)0
Downloads (Last 6 weeks)0

Reflects downloads up to 10 Aug 2024

Other Metrics

View Author Metrics

Citations

Cited By

Liu HFu XYe CChai SLiu L(2019)Atlas refinement with bounded packing efficiencyACM Transactions on Graphics10.1145/3306346.332300138:4(1-13)Online publication date: 12-Jul-2019
https://dl.acm.org/doi/10.1145/3306346.3323001
Liu HZhang XFu XDong ZLiu L(2019)Computational peeling art designACM Transactions on Graphics10.1145/3306346.332300038:4(1-12)Online publication date: 12-Jul-2019
https://dl.acm.org/doi/10.1145/3306346.3323000
Limper MVining NSHEFFER A(2018)Box cutterACM Transactions on Graphics10.1145/3197517.320132837:4(1-13)Online publication date: 30-Jul-2018
https://dl.acm.org/doi/10.1145/3197517.3201328
Prada FKazhdan MChuang MHoppe H(2018)Gradient-domain processing within a texture atlasACM Transactions on Graphics10.1145/3197517.320131737:4(1-14)Online publication date: 30-Jul-2018
https://dl.acm.org/doi/10.1145/3197517.3201317
Liu SFerguson ZJacobson AGingold Y(2017)SeamlessACM Transactions on Graphics10.1145/3130800.313089736:6(1-15)Online publication date: 20-Nov-2017
https://dl.acm.org/doi/10.1145/3130800.3130897
Dhibi NElkefi ABellil WAmar C(2017)Multi-layer compression algorithm for 3D deformed mesh based on multi library wavelet neural network architectureMultimedia Tools and Applications10.1007/s11042-016-3996-876:20(20869-20887)Online publication date: 1-Oct-2017
https://dl.acm.org/doi/10.1007/s11042-016-3996-8
Ebke HSchmidt PCampen MKobbelt L(2016)Interactively controlled quad remeshing of high resolution 3D modelsACM Transactions on Graphics10.1145/2980179.298241335:6(1-13)Online publication date: 5-Dec-2016
https://dl.acm.org/doi/10.1145/2980179.2982413
Nieβner MKeinert BFisher MStamminger MLoop CSchäfer H(2016)Real-Time Rendering Techniques with Hardware TessellationComputer Graphics Forum10.1111/cgf.1271435:1(113-137)Online publication date: 1-Feb-2016
https://dl.acm.org/doi/10.1111/cgf.12714
Nguyen HWünsche BDelmas PLutteroth CZhang E(2016)A robust hybrid image-based modeling systemThe Visual Computer: International Journal of Computer Graphics10.1007/s00371-015-1078-y32:5(625-640)Online publication date: 1-May-2016
https://dl.acm.org/doi/10.1007/s00371-015-1078-y
Koniaris CMitchell KCosker DCollomosse J(2015)Real-time variable rigidity texture mappingProceedings of the 12th European Conference on Visual Media Production10.1145/2824840.2824850(1-10)Online publication date: 24-Nov-2015
https://dl.acm.org/doi/10.1145/2824840.2824850
Show More Cited By

View Options

Get Access

Login options

Check if you have access through your login credentials or your institution to get full access on this article.

Full Access

Get this Publication

View options

Media

Figures

Other

Tables

View Table of Contents