Digitally assisted analog front-end power management strategy via dynamic reconfigurability for robust heart rate monitoring

Q2 Computer Science ACM SIGBED Review Pub Date : 2015-08-17 DOI:10.1145/2815482.2815489

Chengzhi Zong, Somok Mondal, D. Hall, R. Jafari

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引用次数: 4

Abstract

This paper presents a reconfiguration methodology to digitally assist a reconfigurable analog front-end (AFE), with the objective of reducing the power consumption of an ECG-based cardiac activity monitoring system, while maintaining an acceptable performance for the desired signal processing. In this study, we focus on the performance of ECG-based heart rate estimation as an example to demonstrate our proposed strategy. Utilizing the consistency and quasi-periodicity of the ECG waveform, two regions are pre-defined based on the prediction of the R peak by a normalized least mean square (NLMS) adaptive filter. The power consumption and performance of the AFE is dynamically reconfigured accordingly. Experimental evaluations show the system can measure heart rate variability (HRV) with an error of 0.5-4 beats/min with the sampling rate reduced from 488 sps to 100 sps and 40 sps for the two regions respectively, bit resolution reduced from 10-bit to 6-bit and noise tolerance substantially relaxed, offering an estimated 62% total power saving.

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基于动态可重构的鲁棒心率监测数字辅助模拟前端电源管理策略

本文提出了一种重构方法，以数字方式辅助可重构模拟前端(AFE)，目的是降低基于ecg的心脏活动监测系统的功耗，同时保持所需信号处理的可接受性能。在这项研究中，我们将重点放在基于心电图的心率估计的性能上，作为一个例子来证明我们提出的策略。利用心电波形的一致性和准周期性，利用归一化最小均方(NLMS)自适应滤波器对R峰的预测，预先定义两个区域。对AFE的功耗和性能进行动态重新配置。实验评估表明，该系统可以测量心率变异性(HRV)，误差为0.5-4次/分钟，采样率分别从488 sps降低到100 sps和40 sps，比特分辨率从10位降低到6位，噪声容忍度大大降低，估计可节省62%的总功耗。

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ACM SIGBED Review Computer Science-Computer Science (miscellaneous)

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