Atrial Fibrillation Detection from Compressed ECG Measurements for Wireless Body Sensor Network

IF 3.9 3区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

ACM Transactions on Internet Technology Pub Date : 2024-01-10 DOI:10.1145/3637440

Yongyong Chen, Junxin Chen, Shuang Sun, Jingyong Su, Qiankun Li, Zhihan Lyu

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引用次数: 0

Abstract

Recent years have witnessed an increasing prevalence of wearable devices in the public, where atrial fibrillation (AF) detection is a popular application in these devices. Generally, AF detection is performed on cloud whereas this paper describes an on-device AF detection method. Technically, compressed sensing (CS) is first used for electrocardiograph (ECG) acquisition. Then QRS detection is proposed to be performed directly on the compressed CS measurements, rather than on the reconstructed signals on the powerful cloud server. Based on the extracted QRS information, AF is determined by quantitatively analyzing the (RR, dRR) plot. Databases with ECG samples collected from both medical-level (MIT-BIH afdb) and wearable ECG devices (Physionet Challenge 2017) are introduced for performance validation. The experiment results well demonstrate that our on-device AF detection algorithm can approach the performance of those implemented on the raw signals. Our proposal is suitable for AF screening directly on the wearable devices, without the support of the data center for signal reconstruction and intelligent analysis.

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从无线人体传感器网络的压缩心电图测量结果中检测心房颤动

近年来，可穿戴设备在公众中日益普及，心房颤动（AF）检测是这些设备中的热门应用。一般来说，房颤检测是在云端进行的，而本文介绍的是一种设备上的房颤检测方法。在技术上，压缩传感（CS）首先用于心电图（ECG）采集。然后，建议直接在压缩的 CS 测量值上进行 QRS 检测，而不是在功能强大的云服务器上对重建信号进行检测。根据提取的 QRS 信息，通过定量分析（RR、dRR）图确定房颤。为进行性能验证，引入了从医疗级（MIT-BIH afdb）和可穿戴心电图设备（Physionet Challenge 2017）收集的心电图样本数据库。实验结果很好地证明了我们的设备房颤检测算法可以接近在原始信号上实现的算法的性能。我们的建议适用于直接在可穿戴设备上进行房颤筛查，无需数据中心支持信号重建和智能分析。

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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来源期刊

ACM Transactions on Internet Technology 工程技术-计算机：软件工程

CiteScore

10.30

自引率

1.90%

发文量

137

审稿时长

>12 weeks

期刊介绍： ACM Transactions on Internet Technology (TOIT) brings together many computing disciplines including computer software engineering, computer programming languages, middleware, database management, security, knowledge discovery and data mining, networking and distributed systems, communications, performance and scalability etc. TOIT will cover the results and roles of the individual disciplines and the relationshipsamong them.