We describe two new color indexing techniques. The first one is a more robust version of the commonly used color histogram indexing. In the index we store the cumulative color histograms. The L1-, L2-, L(infinity )-distance between two cumulative color histograms can be used to define a similarity measure of these two color distributions. We show that this method produces slightly better results than color histogram methods, but it is significantly more robust with respect to the quantization parameter of the histograms. The second technique is an example of a new approach to color indexing. Instead of storing the complete color distributions, the index contains only their dominant features. We implement this approach by storing the first three moments of each color channel of an image in the index, i.e., for a HSV image we store only 9 floating point numbers per image. The similarity function which is used for the retrieval is a weighted sum of the absolute differences between corresponding moments. Our tests clearly demonstrate that a retrieval based on this technique produces better results and runs faster than the histogram-based methods.
[1]
S. Siegel,et al.
Nonparametric Statistics for the Behavioral Sciences
,
2022,
The SAGE Encyclopedia of Research Design.
[2]
L. Breiman.
Statistics: with a view toward applications
,
1969
.
[3]
Markus A. Stricker.
Bounds for the discrimination power of color indexing techniques
,
1994,
Electronic Imaging.
[4]
Yihong Gong,et al.
An image database system with content capturing and fast image indexing abilities
,
1994,
1994 Proceedings of IEEE International Conference on Multimedia Computing and Systems.
[5]
Brian V. Funt,et al.
Color Constant Color Indexing
,
1995,
IEEE Trans. Pattern Anal. Mach. Intell..
[6]
Alex Pentland,et al.
Photobook: tools for content-based manipulation of image databases
,
1994,
Other Conferences.