BRAIN NET: HYBRID TRANSFER MACHINE LEARNING MODEL FOR BRAIN HEMORRHAGE DETECTION

Authors

  • R. Janakiraman Assist. Professor, Department of Computer Science & Engineering (Data Science), Kommuri Pratap Reddy Institute of Technology, Ghatkesar, Hyderabad, Telangana. Author
  • Karthik Reddy Mekala UG Scholar, Department of Computer Science & Engineering (Data Science), Kommuri Pratap Reddy Institute of Technology, Ghatkesar, Hyderabad, Telangana. Author
  • Abhilash Reddy Somigari UG Scholar, Department of Computer Science & Engineering (Data Science), Kommuri Pratap Reddy Institute of Technology, Ghatkesar, Hyderabad, Telangana. Author
  • Jeshwanth Adla UG Scholar, Department of Computer Science & Engineering (Data Science), Kommuri Pratap Reddy Institute of Technology, Ghatkesar, Hyderabad, Telangana. Author

Keywords:

Early Detection, Transfer Learning Models, Deep Learning, Medical Image Data, Healthcare, VGG16, VGG19

Abstract

 This research delves into the critical realm of early detection for Alzheimer's disease and brain tumors, two debilitating neurological conditions affecting millions worldwide. The conventional diagnostic methods, reliant on visual inspection and expert interpretation, are time-consuming, subjective, and potentially error prone. To address this challenge, this research explores the application of transfer learning models, specifically deep learning algorithms, to automate and enhance the detection process. In addition, the need for accurate and swift diagnosis has fuelled the development of machine learning models capable of processing extensive medical image data, particularly MRI scans. Transfer learning, a technique leveraging pre-trained deep learning models, offers a promising avenue to overcome the complexities of these diseases. By harnessing the knowledge encoded in large datasets, these models can efficiently identify intricate patterns and abnormalities indicative of Alzheimer's disease and various types of brain tumors. In essence, this research underscores the transformative impact of transfer learning models on Alzheimer's disease and brain tumor detection. By amalgamating advanced machine learning techniques with medical imaging, this approach holds the promise to revolutionize healthcare delivery, offering new horizons for early intervention, improved patient care, and a more efficient healthcare system. 

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Published

2024-04-30

Issue

Vol. 10 No. 2 (2024): 10 (2) 2024

Section

Articles

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How to Cite

Janakiraman, R., Reddy Mekala, K., Reddy Somigari, A., & Adla, J. (2024). BRAIN NET: HYBRID TRANSFER MACHINE LEARNING MODEL FOR BRAIN HEMORRHAGE DETECTION. History of Medicine, 10(2), 109-116. https://historymedjournal.com/HOM/index.php/medicine/article/view/750