Reducing motion artifacts for robust QRS detection in capacitive sensor arrays

... International Symposium on Applied Sciences in Biomedical and Communication Technologies. International Symposium on Applied Sciences in Biomedical and Communication Technologies Pub Date : 2011-10-26 DOI:10.1145/2093698.2093747

Aline Serteyn, Xintan Lin, O. Amft

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引用次数: 9

Abstract

Non-contact capacitive ECG measurements (cECG) have applications in various unobtrusive and ubiquitous systems. However, cECG signals are frequently corrupted by interference and motion artifacts. In this work array processing methods, such as blind source separation, were used to reduce the impact of motion artifacts on QRS detection. The capacitive sensor array was integrated in a bed mattress and covered with two insulating sheets. The array processing methods were compared in terms of their QRS detection error rates (De). Results of our study with five healthy subjects in different recording conditions showed that, when using array processing methods, QRS detection performance during body motion can be substantially improved (De reduced from 0.46 on raw sensor data to 0.06 for a channel difference method). We concluded that array processing is a promising approach to achieve motion-resistant QRS detection and thus suggest wider use of capacitive sensor arrays.

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减少运动伪影对电容式传感器阵列的鲁棒QRS检测

非接触式电容性心电测量(cECG)在各种不显眼和普遍存在的系统中都有应用。然而，ceg信号经常被干扰和运动伪影破坏。在此工作阵列处理方法，如盲源分离，以减少运动伪影对QRS检测的影响。电容式传感器阵列集成在床垫中，并覆盖两层绝缘板。比较了阵列处理方法的QRS检测错误率(De)。我们对5名健康受试者在不同记录条件下的研究结果表明，当采用阵列处理方法时，身体运动时的QRS检测性能可以得到显著提高(De从原始传感器数据的0.46降低到信道差分方法的0.06)。我们得出结论，阵列处理是实现抗运动QRS检测的一种有前途的方法，因此建议更广泛地使用电容式传感器阵列。

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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... International Symposium on Applied Sciences in Biomedical and Communication Technologies. International Symposium on Applied Sciences in Biomedical and Communication Technologies

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