An End-to-End framework for automatic detection of Atrial Fibrillation using Deep Residual Learning

Q2 Arts and Humanities Platonic Investigations Pub Date : 2019-10-01 DOI:10.1109/TENCON.2019.8929342

Deepankar Nankani, R. Baruah

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引用次数: 7

Abstract

Electrocardiogram (ECG) inspection is performed by expert cardiologists for diagnosing cardiac diseases such as atrial fibrillation that is ubiquitous in 1–2% of the population worldwide. Prolonged presence of atrial fibrillation tends to form blood clots that travel to the brain through blood stream and cause stroke that inevitably leads to death, making its detection of utmost priority. In the past, people have developed temporal and morphological features to tackle this problem but these features are prone to rhythm changes. Very recently, deep learning methods have shown remarkable performance for better ECG classification. Hence, we aim to develop an end-to-end framework for classifying different length ECG segments into four classes namely, atrial fibrillation, normal, other and noisy rhythms using a deep residual neural network thereby eliminating the need of handcrafted features. To make the model more robust towards noise, a data augmentation technique is employed. The proposed method produced an $F_{1}$ score of $0.88 \pm 0.02$ on PhysioNet/Computing in Cardiology Challenge 2017 database, which is better than existing methods in the literature.

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基于深度残差学习的端到端房颤自动检测框架

心电图(ECG)检查由心脏病专家执行，用于诊断心脏疾病，如房颤，在全球1-2%的人口中普遍存在。房颤的长期存在往往会形成血凝块，通过血流进入大脑，导致中风，不可避免地导致死亡，因此对房颤的检测是重中之重。过去，人们开发了时间和形态特征来解决这个问题，但这些特征容易发生节奏变化。最近，深度学习方法在更好的心电分类方面表现出了显著的性能。因此，我们的目标是开发一个端到端框架，用于使用深度残差神经网络将不同长度的ECG段分为四类，即心房颤动，正常，其他和嘈杂的节律，从而消除了手工制作特征的需要。为了提高模型对噪声的鲁棒性，采用了数据增强技术。该方法在PhysioNet/Computing in Cardiology Challenge 2017数据库上产生$F_{1}$分数为$0.88 \pm 0.02$，优于现有文献中的方法。

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来源期刊

Platonic Investigations Arts and Humanities-Philosophy

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0.30

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