Comparison of artificial neural networks using texture parameters in the recognition of lesions in mammograms digitized

Comparison of artificial neural networks using texture parameters in the recognition of lesions in mammograms digitized

This work proposes to use Radial Basis Function - RBF artificial neural network and Multi-Layer Perceptron MLP with the algorithm cross-validation leave-one-out, to reduce the false-positives of suspicious regions automatically detected by a difference-of-Gaussian filter in mammography. This method...

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Bibliographic Details
Published in:2011 Pan American Health Care Exchanges pp. 426 - 430
Main Authors: Andrioni, V, Guingo, B C, Santana, E L, Pereira, W C A, Infantosi, A F C
Format: Conference Proceeding
Language:English
Published: IEEE 01-03-2011
Subjects:
artificial neural network
Artificial neural networks
breast cancer
Conferences
Couplings
difference-of-Gaussian
gray-level co-occurrence matrix
IEEE catalog
Image segmentation
Medical services
MLP
RBF
RNA
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Summary:This work proposes to use Radial Basis Function - RBF artificial neural network and Multi-Layer Perceptron MLP with the algorithm cross-validation leave-one-out, to reduce the false-positives of suspicious regions automatically detected by a difference-of-Gaussian filter in mammography. This method was applied to 175 mammograms (one real lesion/image), from the Digital Database for Screening Mammography. Was located and segmented 75.4% of lesions, with 3.55 false-positives/image. In this study, five texture parameters of real lesions and false-positive regions were extracted from a gray-level co-occurrence matrix. These parameters were input of the MLP network, trained with different backpropagation settings, and also input of the RBF network. False-positives were reduced to 1.38 per image, with 0.67 false-negatives per image. Future tests include a greater number of images to enhance the network generalization capacity.
ISBN:9781612849157
1612849156
ISSN:2327-8161
DOI:10.1109/PAHCE.2011.5871944