Litcius/Paper detail

Accurate and lightweight oral cancer detection using SE-MobileViT on clinically validated image dataset

Mir Md. Jahangir Kabir, M. Ahmad, Roise Uddin, Martin Coronel, Shashi Kant

2025Discover Artificial Intelligence12 citationsDOIOpen Access PDF

Abstract

Abstract Oral cancer poses a critical global health challenge, with early detection significantly improving patient survival rates and treatment outcomes. This study proposes an advanced deep learning-based diagnostic model, LightSE-MobileViT, specifically designed to classify oral cancer using medical imaging. The Oral Cancer Classification dataset used in this study comprises clinically validated lip and tongue images collected from various ENT hospitals in Ahmedabad. The original dataset consisted of 131 images (87 cancerous and 44 non-cancerous). To address class imbalance and enhance model generalizability, data augmentation techniques were employed, expanding the dataset to 981 images with equal distribution across both classes. Our proposed model, LightSE-MobileViT, integrates a lightweight convolutional neural network (CNN) backbone consisting of sequential convolutional layers enhanced with batch normalization and rectified linear unit activations. To further enrich feature representation and spatial attention, a Squeeze-and-Excitation block is embedded after the third convolutional layer. Subsequently, a MobileViT transformer encoder is employed, effectively capturing global contextual information through efficient multi-headed self-attention mechanisms. Experimental evaluations revealed that LightSE-MobileViT achieved superior diagnostic performance, attaining an accuracy of 98.39%, precision and recall values approaching 1.00 for both cancerous and non-cancerous categories, a macro F1-score of 0.98, and an ROC-AUC of 1.00. Comparative analysis demonstrated notable improvements over benchmark models, including CST-CNN (98% accuracy), MobileNetV2 (97% accuracy), DenseNet121 (97% accuracy), and InceptionV3 (90% accuracy). The exceptional performance of LightSE-MobileViT underscores its robust capability and clinical applicability, suggesting significant potential for deployment in automated oral cancer screening, thus facilitating early detection and timely intervention.

Topics & Concepts

CancerArtificial intelligenceCancer detectionComputer sciencePattern recognition (psychology)MedicineInternal medicineAI in cancer detectionRadiomics and Machine Learning in Medical ImagingDental Radiography and Imaging
Accurate and lightweight oral cancer detection using SE-MobileViT on clinically validated image dataset | Litcius