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Brain Tumor Detection using Decision-Based Fusion Empowered with Fuzzy Logic

Author

Listed:
  • Aqsa Tahir
  • Muhammad Asif
  • Maaz Bin Ahmad
  • Toqeer Mahmood
  • Muhammad Adnan Khan
  • Mushtaq Ali
  • Muhammad Sajid

Abstract

Brain tumor is regarded as one of the fatal and dangerous diseases on the planet. It is present in the form of uncontrolled and irregular cells in the brain of an infected individual. Around 60% of glioblastomas turn into large tumors if it is not diagnosed earlier. Some valuable literature is available on tumor diagnosis, but there is room for improvement in overall performance. Machine Learning (ML)-based techniques have been widely used in the medical domain for early diagnostic diseases. The use of ML techniques in conjunction with improved image-guided technology may help in improving the performance of the brain tumor detection process. In this work, an ML-based brain tumor detection technique is presented. Adaptive Back Propagation Neural Network (ABPNN) and Support Vector Machine (SVM) algorithms are used along with fuzzy logic. The fuzzy logic is used to fuse the result of ABPNN and SVM. The proposed technique is developed using the BRATS dataset. Experimental results reveal that the ABPNN model achieved 98.67% accuracy in the training phase and 96.72% accuracy in the testing phase. On the other hand, the SVM model has attained 98.48% and 97.70% accuracy during the training and testing phases. After applying fuzzy logic for decision-based fusion, the overall accuracy of the proposed technique reaches 98.79% and 97.81% for the training and the testing phases, respectively. The comparative analysis with existing techniques shows the supremacy of the proposed technique.

Suggested Citation

  • Aqsa Tahir & Muhammad Asif & Maaz Bin Ahmad & Toqeer Mahmood & Muhammad Adnan Khan & Mushtaq Ali & Muhammad Sajid, 2022. "Brain Tumor Detection using Decision-Based Fusion Empowered with Fuzzy Logic," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-13, August.
  • Handle: RePEc:hin:jnlmpe:2710285
    DOI: 10.1155/2022/2710285
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