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Paper detail

TumorXAI: Self-Supervised Deep Learning Framework for Explainable Brain MRI Tumor Classification

Classifying brain tumors using magnetic resonance imaging (MRI) is crucial for early diagnosis and treatment; however, tumor heterogeneity and a dearth of annotated datasets restrict the use of supervised deep learning approaches. In this work, we use self-supervised learning (SSL) to study multi-class brain tumor classification. Using a ResNet-50 backbone, we evaluate four SSL frameworks including SimCLR, BYOL, DINO, and Moco v3 on a publicly available dataset of 4,448 MRIs with 17 distinct tumor types. On the dataset, SimCLR achieved 99.64% accuracy, 99.64% precision, 99.64% recall, and 99.64% F1-score. The workflow includes preprocessing, fine-tuning, linear evaluation, and SSL pretraining with data augmentations. Results show that, when labels are limited, SSL-pretrained models outperform supervised baselines in terms of F1-score, recall, accuracy, and precision. Additionally, by providing visual insights into model decisions, Explainable AI techniques (Grad-CAM, Grad-CAM++, EigenCAM) enhance interpretability. These results demonstrate SSL's scalability and dependability in diagnosing brain tumors from unlabeled medical data.

preprint2026arXivOpen access
Abrar Hossain ZahinAmit Kumar SahaTanvir MridhaSaifur RahmanJannatul Ferdous PromeRaima HusnaIsrat JahanAhmed Wasif Reza
Artificial Intelligence
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Abrar Hossain ZahinAmit Kumar SahaTanvir MridhaSaifur RahmanJannatul Ferdous PromeRaima HusnaIsrat JahanAhmed Wasif Reza

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