Low Energy ECG Features Extraction for Atrial Fibrillation Detection in Wearable Sensors

Manan Almusallam, A. Soudani
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Abstract

The Internet of Health Things plays a key role in the transformation of health care systems as it enables wearable health monitoring systems to ensure continuous and non-invasive tracking of vital body parameters. To successfully detect the cardiac problem of Atrial Fibrillation (AF) wearable sensors are required to continuously sense and transmit ECG signals. The traditional approach of ECG streaming over energyconsuming wireless links can overwhelm the limited energy resources of wearable sensors. This paper proposes a low-energy features’ extraction method that combines the RR interval and P wave features for higher AF detection accuracy. In the proposed scheme, instead of streaming raw ECG signals , local AF features extraction is executed on the sensors. Results have shown that combining time-domain features with wavelet extracted features, achieved a sensitivity of 98.59% and a specificity of 97.61%. In addition, compared to ECG streaming, on-sensor AF detection achieved a 92% gain in energy savings.
基于可穿戴传感器的房颤低能心电特征提取
健康物联网在医疗保健系统的转型中发挥着关键作用,因为它使可穿戴健康监测系统能够确保对重要身体参数的连续和非侵入性跟踪。为了成功地检测心房颤动(AF)的心脏问题,需要可穿戴传感器连续地感知和传输心电信号。传统的心电流传输方式是通过消耗能量的无线链路传输的,这可能会耗尽可穿戴传感器有限的能量资源。本文提出了一种结合RR区间和P波特征的低能量特征提取方法,以提高自动对焦检测精度。在该方案中,不是对原始心电信号进行流处理,而是对传感器进行局部自动对焦特征提取。结果表明,将时域特征与小波提取的特征相结合,灵敏度为98.59%,特异性为97.61%。此外,与ECG流相比,传感器自动对焦检测实现了92%的节能增益。
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