Enhanced Detection of Brain Tumour Cells Using Visual Geometry Group

Authors

Keywords:

Brain tumor, Convolution Neural Network (CNN), Deep learning, Denoising, Visual Geometry Group(VGG)

Abstract

Deep Learning Algorithms for medical image analysis is increasing day by day, particularly in Radiology. Tumors in many parts of the body are malignant/non-malignant and should be identified as early as possible. Due to the complex structure of the brain and the existence of more noise in the scanned images, manual identification of tumors in the brain becomes harder for health care experts and it is time consuming. Hence in this proposed work, Visual Geometry Group (VGG) a classical convolution neural network(CNN) is developed in oncology to solve the problem of early identification and detection. CNN is the most effective technique for the classification of tumor and non-tumor tissues in early stage which embrace pre-processing of image followed by feature extraction, and succeeding classification. The proposed model uses VGG 16 which consists of 16 convolution layers that classifies images into 1000 different categories.  It is trained and tested by using images in the BRATS dataset that shows the accuracy of about 98.75% compared to the state of art methods.

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Images of brain with and without Tumour cell

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Published

16.12.2022

How to Cite

Abinaya, S., Alphonse, A. ., Indira, K. ., & Karthiga, S. (2022). Enhanced Detection of Brain Tumour Cells Using Visual Geometry Group. International Journal of Intelligent Systems and Applications in Engineering, 10(4), 296–300. Retrieved from https://ijisae.org/index.php/IJISAE/article/view/2229

Issue

Vol. 10 No. 4 (2022)

Section

Research Article

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Copyright (c) 2022 S. Abinaya, A.Sherly Alphonse, K. Indira, S. Karthiga

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