Atıf İçin Kopyala
Ulu B.
Communications Faculty of Sciences University of Ankara Series A2-A3: Physical Sciences and Engineering, cilt.67, sa.1, ss.59-73, 2025 (Hakemli Dergi)
Özet
Brain tumors are serious health problems that must be diagnosed
accurately and in a timely manner in order to provide effective treatment. Magnetic
resonance imaging (MRI) is widely used in the detection of brain tumors. The
accuracy of MRI results depends on the expertise of the physician and usually
requires confirmation with biopsy. In recent years, revolutionary developments in
image processing and deep learning technologies have provided significant
improvements in the diagnosis and classification of brain tumors using MRI. In this
study, it is aimed to classify brain tumors accurately and effectively for four
different classes (glioma, meningioma, pituitary, and no tumor) previously created
using MRI image data. Four different transfer learning-based deep learning
methods for classification; ResNet-18, EfficientNet-B0, DenseNet-121, and
ConvNeXt-Tiny, are compared using the Fastai library. Accurate diagnosis of brain
tumors is of critical importance in the treatment of patients, and the aim of the study
is to achieve high accuracy and speed. Our proposed Fastai library-based
EfficientNet-B0 model has achieved both fast and highly successful results in the
diagnosis of brain tumors with a 99% accuracy rate and 73 minutes of training
performance. In addition, the DenseNet-121 model has achieved highly successful
results with 99% accuracy rates, and the ResNet-18 and ConvNeXt-Tiny models
have achieved 98% accuracy rates. Our results provide fast and effective insights
into the possible uses of deep learning frameworks in the field of medical imaging.
In addition, these results provide significant improvements compared to studies in
the literature.