用于心电图自动检测和描绘的U-Net体系结构

G. Jiménez-Pérez, A. Alcaine, O. Camara
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引用次数: 18

摘要

心电图的自动检测和描绘通常是许多特征提取任务的第一步。虽然深度学习(DL)方法已经在文献中提出,但这些方法采用了非最优和过时的架构。因此,基于规则的算法仍然是最先进的。然而,这些可能不能推广到其他数据集,并且需要艰难的离线调优以适应新的场景。这项工作将这项任务定义为使用U-Net架构(一个全卷积网络)的自适应分割问题。P波、QRS波和T波的检测精度分别为89.27%、98.18%和93.60%,召回率分别为89.07%、99.47%和95.21%。这项工作显示了有希望的结果,优于现有的深度学习方法,同时比基于规则的方法更具通用性。
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U-Net Architecture for the Automatic Detection and Delineation of the Electrocardiogram
Automatic detection and delineation of the electrocardiogram (ECG) is usually the first step for many feature extraction tasks. Although deep learning (DL) approaches have been proposed in the literature, those employ non-optimal and outdated architectures. Thus, rule-based algorithms remain as state-of-the-art. Nevertheless, those may not generalize on other datasets and require difficult offline tuning for adapting to new scenarios. This work frames this task as a segmentation problem for using an adaptation of the U-Net architecture, a fully convolutional network. The detection performance shows a precision of 89.27%, 98.18% and 93.60% for the detection of the P, QRS and T waves, respectively, and a recall of 89.07%, 99.47% and 95.21%. This work shows promising results, outperforming existing DL approaches while being more generalizable than rule-based methods.
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