Abstract
The work investigates the use of multi dimensional histograms for segmentation of images of chronic wounds. We employ a Support Vector Machine (SVM) classifier for automatic extraction of wound region from an image. We show that the SVM classifier can generalize well on the difficult wound segmentation problem using only 3-D dimensional color histograms. We also show that color histograms of higher dimensions provide a better cue for robust separation of classes in the feature space. A key condition for the successful segmentation is an efficient sampling of multi-dimensional histograms. We propose a multi-dimensional histogram sampling technique for generation of input feature vectors for the SVM classifier. We compare the performance of the multi-dimensional histogram sampling with several existing techniques for quantization of 3-D color space. Our experimental results indicate that different sampling techniques used for the generation of input feature vectors may increase the performance of wound segmentation by about 25%.
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References
Swain, M.J., Ballard, D.H.: Color Indexing. International Journal of Computer Vision 7(1), 11–32 (1991)
Chapelle, O., Haffner, P., Vapnik, V.: SVMs for histogram-based image classification. IEEE Trans. on Neural Networks 9 (1999)
Pietikäinen, O., Nieminen, S., Marszalec, E., Ojala, T.: Accurate Color Discrimination with Classification based on Feature Distributions. In: Proc. of the Inter. Conference on Pattern Recognition (ICPR 1996), pp. 833–838 (1996)
Kolesnik, M., Fexa, A.: Segmentation of wounds in the combined color-texture feature space. In: Proc. of SPIE Medical Imaging 2004: Image Processing, San Diego, CA, February 16-19, pp. 549–556 (2004)
Vapnik, V.: The Nature of Statistical Learning Theory. Springer, New York (1995)
Vapnik, V.: Statistical Learning Theory. John Wiley, New York (1998)
Joachims, T.: Making large-Scale SVM Learning Practical. In: Schölkopf, B., Burges, C., Smola, A. (eds.) Advances in Kernel Methods - Support Vector Learning. MIT Press, Cambridge (1999)
Schölkopf, B., Sung, K., Burges, C., Girosi, F., Niogi, P., Poggio, T., Vapnik, V.: Comparing support vector machines with gaussian kernels to radial basis function classifiers. A.I. Memo. No. 1599, MIT (1996)
Linde, Y., Buzo, A., Gray, R.: An Algorithm for Vector Quantizer Design. IEEE Transaction on Communications, 702–710 (January 1980)
Kohonen, T., Kangas, J., Laaksonen, J., Torkola, K.: LVQ_PAK: A program package for the correct application of Learning Vector Quantization algorithms. In: Proc. of the Inter. Conference on Neural Networks, Baltimore, pp. 1725–1730 (1992)
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Kolesnik, M., Fexa, A. (2005). Multi-dimensional Color Histograms for Segmentation of Wounds in Images. In: Kamel, M., Campilho, A. (eds) Image Analysis and Recognition. ICIAR 2005. Lecture Notes in Computer Science, vol 3656. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11559573_123
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DOI: https://doi.org/10.1007/11559573_123
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-29069-8
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