Deep learning based semantic segmentation approach for automatic detection of brain tumor

S. Markkandeyan; Shivani Gupta; G. Venkat Narayanan; M Jithender Reddy; Mahmoud Ahmad Al-Khasawneh; Mohammad Ishrat; Ajmeera Kiran

Authors

S. Markkandeyan School of Computing, SASTRA Deemed University, Tirumalaisamudram, Thanjavur, India
Shivani Gupta School of Computer Science and Engineering, Vellore Institute of Technology Chennai, India
G. Venkat Narayanan St. Joseph’s College of Engineering Kanchipuram, Tamil Nadu, 600119, India
M Jithender Reddy Vasavi College of Engineering (A), Hyderabad, India
Mahmoud Ahmad Al-Khasawneh Department of Information Technology, School of Computing, Skyline University College, University City Sharjah Sharjah, UAE
Mohammad Ishrat Computer Science and Engineering, Koneru Lakshmaiah Education Foundation Vaddeswaram, AP, India
Ajmeera Kiran Deptartment of Computer Science and Engineering MLR Institute of Technology, Dundigal, Hyderabad, Telangana, India.

Keywords:

Brain Tumor, deep learning, artificial intelligence, semantic segmentation, MRI images, GoogLeNet CNN classification, convolutional neural network, bias-corrected filtering

Abstract

Initially, fromBRATS 2013 dataset the input image is acquired and is preprocessed, segmented using Convolutional neural network (CNN) based semantic segmentation, and were classified using Improved multipath GoogLeNe tCNNclassifier approach.The stage of preprocessing is carried using Bias corrected filtering. Ascheme of deep learning-based semantic segmentation of brain tumors for MRI images is proposed to classify the brain tumor effectively. In this approach, semantic segmentation is employed for segmentation purposes. Improved multipath GoogLeNetCNNis applied for classifying Brain tumor for classifying brain MR images and for grading the brain tumors into three classes (Meningioma, Pituitary Tumor, and Glioma). There are a total of 3064 T1-weighted contrast- enhanced pictures representing 233 patients in the input dataset.Accuracy, sensitivity, specificity, & precision estimates for the proposed method are calculated in MATLAB. The obtained results expose that the projected method achieves overall classifier performance rate of 99.7accuracy, sensitivity 100%, specificity 99.717%, and precision of 99.06%. Results show that the suggested system outperforms state-of-the-art methods.

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