Data augmentation in semi-supervised adversarial domain adaptation for EEG-based sleep staging

2022 IEEE-EMBS International Conference on Biomedical and Health Informatics (BHI) Pub Date : 2022-09-27 DOI:10.1109/BHI56158.2022.9926942

E. Heremans, Trui Osselaer, N. Seeuws, Huy P Phan, D. Testelmans, M. de Vos

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Abstract

The upcoming era of wearable health monitoring devices has created a need for automated signal processing algorithms that can be trained with a minimal amount of labeled data. In our previous work, we showed that transfer learning techniques like semi-supervised adversarial domain adaptation can help to achieve this. We applied our method to remote sleep monitoring, by performing sleep staging on single-channel wearable EEG signals. In this work, we propose data augmentation to help in tackling this challenge. By using an artificially increased amount of labeled data, our semi-supervised adversarial domain adaptation method improves its performance on the wearable EEG data. The accuracy is increased consistently by 0.6% to 1.4% relative to the results without augmentation. As both adversarial domain adaptation and data augmentation are strategies to deal with the scarceness of data, we conclude that these methods are can effectively be combined to surpass their individual performance.

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基于脑电图睡眠分期的半监督对抗域自适应数据增强

即将到来的可穿戴式健康监测设备时代创造了对自动化信号处理算法的需求，这种算法可以用最少的标记数据进行训练。在我们之前的工作中，我们展示了像半监督对抗性领域适应这样的迁移学习技术可以帮助实现这一目标。我们将该方法应用于远程睡眠监测，对单通道可穿戴EEG信号进行睡眠分期。在这项工作中，我们提出数据增强来帮助解决这一挑战。通过人为增加标记数据量，我们的半监督对抗域自适应方法提高了其在可穿戴EEG数据上的性能。相对于没有增强的结果，准确度持续提高0.6%到1.4%。由于对抗域自适应和数据增强都是处理数据稀缺的策略，我们得出结论，这两种方法可以有效地结合起来，以超越它们各自的性能。

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2022 IEEE-EMBS International Conference on Biomedical and Health Informatics (BHI)

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