通过生物阻抗测量进行心率检测的电极比较

2022 Workshop on Microwave Theory and Techniques in Wireless Communications (MTTW) Pub Date : 2022-10-05 DOI:10.1109/MTTW56973.2022.9942569

Didzis Lapsa, R. Janeliukstis, Atis Elsts

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引用次数: 1

摘要

紧凑型腕戴设备可以连续测量人体生物参数，如心率，提供有价值的健康信息，并促进临床环境之外的医疗保健。生物阻抗是一种很有前途的可穿戴设备生命体征监测的替代传感方式，但需要靠近受试者的皮肤。目前的研究评估了不同类型的电极通过生物阻抗在手腕上测量心率的适用性。我们比较了铜、金和不锈钢电极表面光滑和凹凸不平的情况。为此，我们开发了一个信号到心率数据处理管道和一个基于信噪比的指标，该指标通过算法评估信号的质量。结果表明，虽然数据中有一个明显的趋势，支持选择不锈钢而不是其他金属，凹凸不平而不是光滑的电极表面，但信号质量的大部分差异来自电极类型以外的因素。

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Electrode Comparison for Heart Rate Detection via Bioimpedance Measurements

Compact wrist-worn devices that can continuously measure human bio-parameters such as heart rate offers valuable health information and facilitate healthcare outside clinical settings. Bioimpedance is a promising alternative sensing modality for vital signs monitoring in wearable devices but requires close proximity to the subject's skin. The current study evaluates the suitability of different types of electrodes for on-wrist heartrate measurements via bioimpedance. We compare copper, gold, and stainless steel electrodes with smooth and bumpy surfaces. To this end, we develop a signal-to-heart-rate data processing pipeline and a SNR-based metric that algorithmically evaluates the signal's quality. The results show that while there is a clear trend in the data that supports the selection of stainless steel over other metals and bumpy over smooth electrode surfaces, most of the variance in the signal quality comes from factors other than the electrode type.

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2022 Workshop on Microwave Theory and Techniques in Wireless Communications (MTTW)

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