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Multi-Feature Analysis for Automated Brain Stroke Classification Using Weighted Gaussian Naïve Bayes Classifier

S. Jayachitra, A. Prasanth

2020Journal of Circuits Systems and Computers142 citationsDOI

Abstract

In today’s world, brain stroke is considered as a life-threatening disease provoked by undesirable blockage among the arteries feeding the human brain. The timely diagnosis of this brain stroke detection in Magnetic Resonance Imaging (MRI) images increases the patient’s survival rate. However, automated detection plays a significant challenge owing to the complexity of the shape, dimension of size and the location of stroke lesions. In this paper, a novel optimized fuzzy level segmentation algorithm is proposed to detect the ischemic stroke lesions. After segmentation, the multi-textural features are extracted to form a feature set. These features are given as input to the proposed weighted Gaussian Naïve Bayes classifier to discriminate normal and abnormal stroke lesion classes. The experimental result manifests that the proposed methodology achieves a higher accuracy as compared with the existing state-of-the-art techniques. The proposed classifier discriminates normal and abnormal classes efficiently and attains 99.32% of accuracy, 96.87% of sensitivity and 98.82% of F1 measure.

Topics & Concepts

Pattern recognition (psychology)Artificial intelligenceClassifier (UML)SegmentationNaive Bayes classifierBayes classifierBayes' theoremGaussianComputer scienceMagnetic resonance imagingStroke (engine)Bayesian probabilityMedicineRadiologyEngineeringSupport vector machineMechanical engineeringPhysicsQuantum mechanicsBrain Tumor Detection and ClassificationRetinal Imaging and AnalysisNeurological Disease Mechanisms and Treatments
Multi-Feature Analysis for Automated Brain Stroke Classification Using Weighted Gaussian Naïve Bayes Classifier | Litcius