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Detection and Classification of MRI Brain Images For Head/Brain Injury Using Soft Computing Techniques


Affiliations
1 Rungta College of Engineering and Technology, Bhilai, India
2 IIITM Gwalior, M.P., India
     

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It is essential to have a rigorous computerized system for Magnetic Resonance Images (MRI) of the brain for medical perception and clinical analysis. This article focuses on our proposed method of hybrid approach for classification of normal and abnormalities in magnetic resonance brain images. Wavelet and PCA were functioning feature extraction and reduction from image respectively. The featured images finally were linked to Neuro-Fuzzy Classifier (NFC) for classification. The proposed methodology, including three basic steps, namely preprocessing, training and classified output. It extracts and reduced the dimension of features from the set of scan brain MR images of patients. Once preprocessing done, the featured image trained by soft computing based fuzzy neural tool and finally fed to the Neuro-Fuzzy Classifier (NFC) for detection of abnormalities in new MR images. The Hybrid NFC is combined with K- fold fuzzy C-means Neuro-Fuzzy Classifier which is used to enhance abstraction of NFC. We focus on common brain diseases such as meningioma, Alzheimer's and visual agnosia as an abnormal brain. K-Fold Neuro Fuzzy Classifier provides the accuracy around 98% with minimum computational time.

Keywords

MRI, PCA, NFC, DWT, PSNR.
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  • Detection and Classification of MRI Brain Images For Head/Brain Injury Using Soft Computing Techniques

Abstract Views: 213  |  PDF Views: 3

Authors

Shrikant Burje
Rungta College of Engineering and Technology, Bhilai, India
Sourabh Rungta
Rungta College of Engineering and Technology, Bhilai, India
Anupam Shukla
IIITM Gwalior, M.P., India

Abstract


It is essential to have a rigorous computerized system for Magnetic Resonance Images (MRI) of the brain for medical perception and clinical analysis. This article focuses on our proposed method of hybrid approach for classification of normal and abnormalities in magnetic resonance brain images. Wavelet and PCA were functioning feature extraction and reduction from image respectively. The featured images finally were linked to Neuro-Fuzzy Classifier (NFC) for classification. The proposed methodology, including three basic steps, namely preprocessing, training and classified output. It extracts and reduced the dimension of features from the set of scan brain MR images of patients. Once preprocessing done, the featured image trained by soft computing based fuzzy neural tool and finally fed to the Neuro-Fuzzy Classifier (NFC) for detection of abnormalities in new MR images. The Hybrid NFC is combined with K- fold fuzzy C-means Neuro-Fuzzy Classifier which is used to enhance abstraction of NFC. We focus on common brain diseases such as meningioma, Alzheimer's and visual agnosia as an abnormal brain. K-Fold Neuro Fuzzy Classifier provides the accuracy around 98% with minimum computational time.

Keywords


MRI, PCA, NFC, DWT, PSNR.