In the present paper we discuss a new approach for the detection of microcalcification clusters, based on neural networks and developed as part of the MAGIC-5 project, an INFN-funded program which aims at the development and implementation of CAD algorithms in a GRID-based distributed environment. The proposed approach has as its roots the desire to maximize the rejection of background during the analytical pre-processing stage, in order to train and test the neural network with as clean as possible a sample and therefore maximize its performance. The algorithm is composed of three modules: the image pre-processing, the feature extraction component and the Backpropagation Neural Network module. The First module comprises the use of several algorithms: H-Dome Transformation, Masking, Binarisation of grayscale images, Connected Components Labeling; for the classification, initially 27 features are extracted from the output image, features that are statistically analyzed and reduced to 17, which are used as input to the Backpropagation Neural Network. The algorithm was trained (tested) on 139 (139) images respectively, containing 149 (152) true clusters and 146 (415) false.

Detection and classification of microcalcifications clusters in digitized mammograms / Cheran, Sc; Cataldo, R; Cerello, P; De Carlo, F; Fauci, F; Forni, G; Golosio, Bruno; Lauria, A; Torres, El; De Mitri, I; Masala, G; Raso, G; Retico, A; Tata, A.. - 7:(2004), pp. 4140-4140. (Intervento presentato al convegno 2004 Nuclear Science Symposium, Medical Imaging Conference, Symposium on Nuclear Power Systems and the 14th International Workshop on Room Temperature Semiconductor X- and Gamma- Ray Detectors tenutosi a Rome nel 16 October 2004 - 22 October 2004).

Detection and classification of microcalcifications clusters in digitized mammograms

GOLOSIO, Bruno;
2004-01-01

Abstract

In the present paper we discuss a new approach for the detection of microcalcification clusters, based on neural networks and developed as part of the MAGIC-5 project, an INFN-funded program which aims at the development and implementation of CAD algorithms in a GRID-based distributed environment. The proposed approach has as its roots the desire to maximize the rejection of background during the analytical pre-processing stage, in order to train and test the neural network with as clean as possible a sample and therefore maximize its performance. The algorithm is composed of three modules: the image pre-processing, the feature extraction component and the Backpropagation Neural Network module. The First module comprises the use of several algorithms: H-Dome Transformation, Masking, Binarisation of grayscale images, Connected Components Labeling; for the classification, initially 27 features are extracted from the output image, features that are statistically analyzed and reduced to 17, which are used as input to the Backpropagation Neural Network. The algorithm was trained (tested) on 139 (139) images respectively, containing 149 (152) true clusters and 146 (415) false.
2004
Detection and classification of microcalcifications clusters in digitized mammograms / Cheran, Sc; Cataldo, R; Cerello, P; De Carlo, F; Fauci, F; Forni, G; Golosio, Bruno; Lauria, A; Torres, El; De Mitri, I; Masala, G; Raso, G; Retico, A; Tata, A.. - 7:(2004), pp. 4140-4140. (Intervento presentato al convegno 2004 Nuclear Science Symposium, Medical Imaging Conference, Symposium on Nuclear Power Systems and the 14th International Workshop on Room Temperature Semiconductor X- and Gamma- Ray Detectors tenutosi a Rome nel 16 October 2004 - 22 October 2004).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11388/63661
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