A Brain Abnormality Detection and Tissue Segmentation Technique by Using Dual Mode Classifier

A Brain Abnormality Detection and Tissue

SegmentationTechnique by Using Dual Mode

Classifier

Angel Viji1 and Jayakumari Jayaraj2

1Department of Computer Science and Engineering, Noorul Islam University, India

2Department of Electronic and Communication, Noorul Islam University, India

Abstract: In the analysis of brain Magnetic Resonance Images (MRI), tissue classification is an important issue. Many works have been done to classify the brain tissues from the brain MRI. This paper presents a new technique to classify the brain MRI images and to perform tissue classification by using dual mode classifier. Initially, the brain MRI images are obtained from the brain databases and features such as covariance and correlation are calculated from the input brain MRI images. These calculated features are given to Feed Forward Back Propagation Neural Network (FFBNN) to detect whether the given MRI brain image is normal or abnormal. After detection, the resultant image is subjected to the segmentation process with the use of Optimized Region Growing (ORGW) technique to accomplish efficient segmentation. Following that, by utilizing Local Binary Pattern (LBP), texture feature is computed from the segmented brain MRI images. Then this texture feature is given as the input to the dual mode classifier which has two branches. One branch classifies the normal tissues such as Grey Matter (GM), White Matter (WM) and Cerebrospinal Fluid (CF) and the other branch classifies the abnormal tissues such as Tumor and Edema. The performance of our proposed technique is compared with other techniques such as Conventional Region Growing (RGW), and MRGW.

Keywords: ORGW, LBP, dual mode classifier, FFBNN, correlation, covariance.

Received December 24, 2013; accepted November 4, 2014

 

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