First Steps Towards Self-Supervised Pretraining of the 12-Lead ECG

2021 Computing in Cardiology (CinC) Pub Date : 2021-09-13 DOI:10.23919/cinc53138.2021.9662748

Daniel Gedon, Antônio H. Ribeiro, Niklas Wahlström, Thomas Bo Schön

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引用次数: 2

Abstract

Self-supervised learning is a paradigm that extracts general features which describe the input space by artificially generating labels from the input without the need for explicit annotations. The learned features can then be used by transfer learning to boost the performance on a downstream task. Such methods have recently produced state of the art results in natural language processing and computer vision. Here, we propose a self-supervised learning method for 12-lead electrocardiograms (ECGs). For pretraining the model we design a task to mask out subsegements of all channels of the input signals and try to predict the actual values. As the model architecture, we use a U-ResNet containing an encoder-decoder structure. We test our method by self-supervised pretraining on the CODE dataset and then transfer the learnt features by finetuning on the PTB-XL and CPSC benchmarks to evaluate the effect of our method in the classification of 12-leads ECGs. The method does provide modest improvements in performance when compared to not using pretraining. In future work we will make use of these ideas in smaller dataset, where we believe it can lead to larger performance gains.

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12导联心电图自我监督预训练的第一步

自监督学习是一种范例，它通过从输入中人工生成标签来提取描述输入空间的一般特征，而不需要显式注释。学习到的特征可以通过迁移学习来提高下游任务的性能。这些方法最近在自然语言处理和计算机视觉方面产生了最先进的结果。在这里，我们提出了一种12导联心电图(ECGs)的自监督学习方法。为了对模型进行预训练，我们设计了一个任务来屏蔽输入信号的所有通道的子段，并尝试预测实际值。作为模型架构，我们使用了一个包含编码器-解码器结构的U-ResNet。我们通过在CODE数据集上进行自监督预训练来测试我们的方法，然后通过在PTB-XL和CPSC基准上进行微调来转移学习到的特征，以评估我们的方法在12导联心电图分类中的效果。与不使用预训练相比，该方法确实提供了适度的性能改进。在未来的工作中，我们将在更小的数据集中使用这些想法，我们相信它可以带来更大的性能提升。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 Computing in Cardiology (CinC)

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