FRACTAL ANALYSIS TOOLS FOR CHARACTERIZING THE COLORIMETRIC ORGANIZATION OF DIGITAL IMAGES - Case Study using Natural and Synthetic Images

Julien Chauveau, David Rousseau, Paul Richard, François Chapeau-Blondeau

2010

Abstract

The colorimetric organization of RGB color images is analyzed through the computation of algorithms which can characterize fractal organizations in the support and population of their three-dimensional color histogram. These algorithms have shown that complex organizations across scales exist in the colorimetric domain for natural images with often non-integer fractal dimension over a certain range of scale. In this paper, we apply this method of colorimetric characterization to synthetic images produced by rendering techniques of increasing sophistication. We show that the fractal or scale invariant signatures are more pronounced when the realism of the synthetic images increases. Such results could have interesting applications to improve the colorimetric realism of synthetic images. This also may contribute to progress in classification and vision, in using fractal colorimetric properties to differentiate natural and synthetic images.

References

1. Burton, G. J. and Moorhead, I. R. (1987). Color and spatial structure in natural scenes. Applied Optics, 26:157- 170.
2. Chapeau-Blondeau, F., Chauveau, J., Rousseau, D., and Richard, P. (2009). Fractal structure in the color distribution of natural images. Chaos, Solitons & Fractals, 42:472-482.
3. Chauveau, J., Rousseau, D., and Chapeau-Blondeau, F. (2008). Pair correlation integral for fractal characterization of three-dimensional histograms from color images. Lecture Notes in Computer Science, LNCS 5099:200-208. Berlin: Springer.
4. Chauveau, J., Rousseau, D., and Chapeau-Blondeau, F. (2009). Fractal capacity dimension of threedimensional histogram from color images. Multidimensional Systems and Signal Processing, (in press). DOI 10.1007/s11045-009-0097-0.
5. Dong, D. W. and Atick, J. J. (1995). Statistics of natural time-varying images. Network: Computation in Neural Systems, 6:345-358.
6. Hsiao, W. H. and Millane, R. P. (2005). Effects of occlusion, edges, and scaling on the power spectra of natural images. Journal of the Optical Society of America A, 22:1789-1797.
7. Mandelbrot, B. B. (1983). The Fractal Geometry of Nature. San Francisco: Freeman.
8. Olshausen, B. A. and Field, D. J. (2000). Vision and the coding of natural images. American Scientist, 88:238- 245.
9. Ruderman, D. L. and Bialek, W. (1994). Statistics of natural images: Scaling in the woods. Physical Review Letters, 73:814-817.
10. Schroeder, M. (1991). Fractals, Chaos, Power Laws. New York: Freeman.

Paper Citation

in Harvard Style

Chauveau J., Rousseau D., Richard P. and Chapeau-Blondeau F. (2010). FRACTAL ANALYSIS TOOLS FOR CHARACTERIZING THE COLORIMETRIC ORGANIZATION OF DIGITAL IMAGES - Case Study using Natural and Synthetic Images . In Proceedings of the International Conference on Computer Vision Theory and Applications - Volume 2: VISAPP, (VISIGRAPP 2010) ISBN 978-989-674-029-0, pages 245-248. DOI: 10.5220/0002818202450248

in Bibtex Style

@conference{visapp10,
author={Julien Chauveau and David Rousseau and Paul Richard and François Chapeau-Blondeau},
title={FRACTAL ANALYSIS TOOLS FOR CHARACTERIZING THE COLORIMETRIC ORGANIZATION OF DIGITAL IMAGES - Case Study using Natural and Synthetic Images},
booktitle={Proceedings of the International Conference on Computer Vision Theory and Applications - Volume 2: VISAPP, (VISIGRAPP 2010)},
year={2010},
pages={245-248},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0002818202450248},
isbn={978-989-674-029-0},
}

in EndNote Style

TY - CONF
JO - Proceedings of the International Conference on Computer Vision Theory and Applications - Volume 2: VISAPP, (VISIGRAPP 2010)
TI - FRACTAL ANALYSIS TOOLS FOR CHARACTERIZING THE COLORIMETRIC ORGANIZATION OF DIGITAL IMAGES - Case Study using Natural and Synthetic Images
SN - 978-989-674-029-0
AU - Chauveau J.
AU - Rousseau D.
AU - Richard P.
AU - Chapeau-Blondeau F.
PY - 2010
SP - 245
EP - 248
DO - 10.5220/0002818202450248