In this paper, a Computer Aided System for microcalcification cluster diagnosis in mammographic images is presented. The method is characterized by three phases. In fact, single microcalcifications are first localized then microcalcifications having a cluster pattern are detected. In the last step the procedure classifies the abnormalities as benign or malignant microcalcification clusters. Features extracted from localized single microcalcifications are fed into a Support Vector Machine classifier to verify the presence of microcalcification cluster, minimizing false positive detections. For the diagnosis purpose, an Artificial Neural Network classifier is implemented which makes use of features extracted from previously detected microcalcification clusters as inputs. The performance of the implemented system is evaluated taking into account the accuracy of both detecting and classifying microcalcification clusters. Adopting the MIAS database as test bench, a sensitivity of about 98.4% at a rate of 0.85 FP/image is achieved in detecting microcalcification clusters. Moreover, the method gets a sensitivity of about 93.5% and an accuracy value equal to 94.2% in classifying the detected microcalcification clusters. The obtained system performance shows its ability of aiding the interpretation of specialists and, consequently, it could be considered as a "second opinion" method.

A supervised method for microcalcification cluster diagnosis / Rizzi, Maria; D'Aloia, M.; Castagnolo, B.. - In: INTEGRATED COMPUTER-AIDED ENGINEERING. - ISSN 1069-2509. - 20:2(2013), pp. 157-167. [10.3233/ICA-130426]

A supervised method for microcalcification cluster diagnosis

RIZZI, Maria;
2013-01-01

Abstract

In this paper, a Computer Aided System for microcalcification cluster diagnosis in mammographic images is presented. The method is characterized by three phases. In fact, single microcalcifications are first localized then microcalcifications having a cluster pattern are detected. In the last step the procedure classifies the abnormalities as benign or malignant microcalcification clusters. Features extracted from localized single microcalcifications are fed into a Support Vector Machine classifier to verify the presence of microcalcification cluster, minimizing false positive detections. For the diagnosis purpose, an Artificial Neural Network classifier is implemented which makes use of features extracted from previously detected microcalcification clusters as inputs. The performance of the implemented system is evaluated taking into account the accuracy of both detecting and classifying microcalcification clusters. Adopting the MIAS database as test bench, a sensitivity of about 98.4% at a rate of 0.85 FP/image is achieved in detecting microcalcification clusters. Moreover, the method gets a sensitivity of about 93.5% and an accuracy value equal to 94.2% in classifying the detected microcalcification clusters. The obtained system performance shows its ability of aiding the interpretation of specialists and, consequently, it could be considered as a "second opinion" method.
2013
A supervised method for microcalcification cluster diagnosis / Rizzi, Maria; D'Aloia, M.; Castagnolo, B.. - In: INTEGRATED COMPUTER-AIDED ENGINEERING. - ISSN 1069-2509. - 20:2(2013), pp. 157-167. [10.3233/ICA-130426]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/1567
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