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BSDA: Bayesian Random Semantic Data Augmentation for Medical Image Classification

Yaoyao Zhu, Xiuding Cai, Xueyao Wang, Xiaoqing Chen, Zhongliang Fu, Yu Yao

2024Sensors13 citationsDOIOpen Access PDF

Abstract

Data augmentation is a crucial regularization technique for deep neural networks, particularly in medical imaging tasks with limited data. Deep learning models are highly effective at linearizing features, enabling the alteration of feature semantics through the shifting of latent space representations-an approach known as semantic data augmentation (SDA). The paradigm of SDA involves shifting features in a specified direction. Current SDA methods typically sample the amount of shifting from a Gaussian distribution or the sample variance. However, excessive shifting can lead to changes in data labels, which may negatively impact model performance. To address this issue, we propose a computationally efficient method called Bayesian Random Semantic Data Augmentation (BSDA). BSDA can be seamlessly integrated as a plug-and-play component into any neural network. Our experiments demonstrate that BSDA outperforms competitive methods and is suitable for both 2D and 3D medical image datasets, as well as most medical imaging modalities. Additionally, BSDA is compatible with mainstream neural network models and enhances baseline performance. The code is available online.

Topics & Concepts

Bayesian probabilityComputer scienceRandom forestArtificial intelligenceImage (mathematics)Data miningMachine learningPattern recognition (psychology)Natural language processingInformation retrievalAdvanced Neural Network ApplicationsAI in cancer detectionCOVID-19 diagnosis using AI
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