Archivio Istituzionale della RicercaIn this work, we present a Computer Aided Diagnostic (CAD) technique (a class of Atheromatic systems) that classifies the automatically segmented carotid far wall Intima-Media Thickness (IMT) regions along the common carotid artery into symptomatic and asymptomatic classes. We extracted texture features based on Local Binary Patterns (LBP) and Law’s Texture Energy (LTE) and used the significant features to train and test the Support Vector Machine classifier. We developed the classifiers using threefold stratified cross validation data resampling technique on 342 IMT wall regions. An accuracy of 89.5% was registered. Thus, the proposed technique is accurate, robust, non-invasive, fast, objective, and cost-effective, and hence, will add more value to the existing carotid plaque diagnostics protocol.
Carotid far wall characterization using LBP, Laws' Texture Energy and wall variability: A novel class of Atheromatic systems / Acharya, Ur; S., Vs; M., Mr; Saba, L; Molinari, Filippo; Shafique, S; Nicolaides, A; Suri, Js. - ELETTRONICO. - 2012:(2012), pp. 448-451. (Intervento presentato al convegno Engineering in Medicine and Biology Conference 2012 tenutosi a San Francisco nel 28 Aug - 1 Sep) [10.1109/EMBC.2012.6345964].
Carotid far wall characterization using LBP, Laws' Texture Energy and wall variability: A novel class of Atheromatic systems.
MOLINARI, FILIPPO;
2012
Abstract
In this work, we present a Computer Aided Diagnostic (CAD) technique (a class of Atheromatic systems) that classifies the automatically segmented carotid far wall Intima-Media Thickness (IMT) regions along the common carotid artery into symptomatic and asymptomatic classes. We extracted texture features based on Local Binary Patterns (LBP) and Law’s Texture Energy (LTE) and used the significant features to train and test the Support Vector Machine classifier. We developed the classifiers using threefold stratified cross validation data resampling technique on 342 IMT wall regions. An accuracy of 89.5% was registered. Thus, the proposed technique is accurate, robust, non-invasive, fast, objective, and cost-effective, and hence, will add more value to the existing carotid plaque diagnostics protocol.
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https://hdl.handle.net/11583/2506328
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