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Journal of Medical Systems
Published in: Journal of Medical Systems 1/2011

01-02-2011 | Original Paper

Using Autoencoders for Mammogram Compression

Authors: Chun Chet Tan, Chikkannan Eswaran

Published in: Journal of Medical Systems | Issue 1/2011

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Abstract

This paper presents the results obtained for medical image compression using autoencoder neural networks. Since mammograms (medical images) are usually of big sizes, training of autoencoders becomes extremely tedious and difficult if the whole image is used for training. We show in this paper that the autoencoders can be trained successfully by using image patches instead of the whole image. The compression performances of different types of autoencoders are compared based on two parameters, namely mean square error and structural similarity index. It is found from the experimental results that the autoencoder which does not use Restricted Boltzmann Machine pre-training yields better results than those which use this pre-training method.
Literature
1.
Hinton, G. E., and Salakhutdinov, R. R., Reducing the dimensionality of data with neural networks. Science 313:504–507, 2006.CrossRefMathSciNet
2.
Bengio, Y., Lamblin, P., Popovici, D., and Larochelle, H., Greedy layer-wise training of deep networks. In: Advances in Neural Information Processing Systems, Tech. Rep. 1282. Vol. 19. Cambridge, MA: MIT Press, 2006.
3.
Polak, E., and Ribire, G., Note sur la convergence de methods de directions conjures. Revue Francais Information Recherche Operationnelle 16:35–43, 1969.
4.
Larochelle, H., Erhan, D., Courville, A., Bergstra, J., and Bengio, Y., An empirical evaluation of deep architectures on problems with many factors of variation. In: Proceedings of the 24th International Conference on Machine Learning (ICLM). pp. 473–480. Corvalis, OR: ACM, 2007.CrossRef
5.
6.
Tee, Y. W., and Hinton, G. E., Rate-coded Restricted Boltzmann machines for face recognition. In: Neural Information Processing Systems. Vol. 13, pp. 908–914. Cambridge, MA: MIT Press, 2000.
7.
Salakhutdinov, R., Mnih, A., and Hinton, G., Restricted Boltzmann machines for collaborative filtering. In: Proceedings of the 24th International Conference on Machine Learning. pp. 791–798. Corvallis, OR, 2007.
8.
Cosman, P. C., Gray, R. M., and Olshen, R. A., Evaluating quality of compressed medical images: SNR, subjective rating, and diagnostic accuracy. Proc. of the IEEE 82(6):919–932, 1994.CrossRef
9.
Wang, Z., Bovik, A. C., Sheikh, H. R., and Simoncelli, E. P., Image quality assessment: from error visibility to structural similarity. IEEE Trans. Image Process 3(4):600–612, 2004.CrossRef
10.
11.
Heath, M., Bowyer, K., Kopans, D., Moore, R., and Kegelmeyer, W. P., The digital database for screening mammography. In: Yaffe, M. J. (Ed.), Proc. of the Fifth Int. Workshop on Digital Mammography. pp. 212–218. Madison, WI: Medical Physics Publishing, 2001.
12.
13.
Steudel, A., Ortmann, S., and Glesner, M., Medical image compression with neural nets. In: Proc. of ISUMA - NAFIPS ’95. pp. 571–576, 1995.
Metadata
Title
Using Autoencoders for Mammogram Compression
Authors
Chun Chet Tan
Chikkannan Eswaran
Publication date
01-02-2011
Publisher
Springer US
Published in
Journal of Medical Systems / Issue 1/2011
Print ISSN: 0148-5598
Electronic ISSN: 1573-689X
DOI
https://doi.org/10.1007/s10916-009-9340-3

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