Sensors (Jan 2022)

Brain Tumor/Mass Classification Framework Using Magnetic-Resonance-Imaging-Based Isolated and Developed Transfer Deep-Learning Model

  • Muhannad Faleh Alanazi,
  • Muhammad Umair Ali,
  • Shaik Javeed Hussain,
  • Amad Zafar,
  • Mohammed Mohatram,
  • Muhammad Irfan,
  • Raed AlRuwaili,
  • Mubarak Alruwaili,
  • Naif H. Ali,
  • Anas Mohammad Albarrak

DOI
https://doi.org/10.3390/s22010372
Journal volume & issue
Vol. 22, no. 1
p. 372

Abstract

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With the advancement in technology, machine learning can be applied to diagnose the mass/tumor in the brain using magnetic resonance imaging (MRI). This work proposes a novel developed transfer deep-learning model for the early diagnosis of brain tumors into their subclasses, such as pituitary, meningioma, and glioma. First, various layers of isolated convolutional-neural-network (CNN) models are built from scratch to check their performances for brain MRI images. Then, the 22-layer, binary-classification (tumor or no tumor) isolated-CNN model is re-utilized to re-adjust the neurons’ weights for classifying brain MRI images into tumor subclasses using the transfer-learning concept. As a result, the developed transfer-learned model has a high accuracy of 95.75% for the MRI images of the same MRI machine. Furthermore, the developed transfer-learned model has also been tested using the brain MRI images of another machine to validate its adaptability, general capability, and reliability for real-time application in the future. The results showed that the proposed model has a high accuracy of 96.89% for an unseen brain MRI dataset. Thus, the proposed deep-learning framework can help doctors and radiologists diagnose brain tumors early.

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