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Abstract #100519 Published in IGR 23-1
Improving the generalization of glaucoma detection on fundus images via feature alignment between augmented views
Zhou C; Ye J; Wang J; Zhou Z; Wang L; Jin K; Wen Y; Zhang C; Qian DBiomedical optics express 2022; 13: 2018-2034
Convolutional neural networks (CNNs) are commonly used in glaucoma detection. Due to the various data distribution shift, however, a well-behaved model may be plummeting in performance when deployed in a new environment. On the other hand, the most straightforward method, data collection, is costly and even unrealistic in practice. To address these challenges, we propose a new method named data augmentation-based (DA) feature alignment () to improve the out-of-distribution (OOD) generalization with a single dataset, which is based on the principle of feature alignment to learn the invariant features and eliminate the effect of data distribution shifts. creates two views of a sample by data augmentation and performs the feature alignment between that augmented views through latent feature recalibration and semantic representation alignment. Latent feature recalibration is normalizing the middle features to the same distribution by instance normalization (IN) layers. Semantic representation alignment is conducted by minimizing the Topk NT-Xent loss and the maximum mean discrepancy (MMD), which maximize the semantic agreement across augmented views from individual and population levels. Furthermore, a benchmark is established with seven glaucoma detection datasets and a new metric named mean of clean area under curve () for a comprehensive evaluation of the model performance. Experimental results of five-fold cross-validation demonstrate that can consistently and significantly improve the out-of-distribution generalization (up to +16.3% ) regardless of the training data, network architectures, and augmentation policies and outperform lots of state-of-the-art methods.
School of Biomedical Engineering, Shanghai Jiao Tong University, Shanghai, China.
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