A low power system with adaptive data compression for wireless monitoring of physiological signals and its application to wireless electroencephalography

2010 11th International Symposium on Quality Electronic Design (ISQED) Pub Date : 2010-03-22 DOI:10.1109/ISQED.2010.5450552

Jeremy R. Tolbert, Pratik Kabali, Simeranjit Brar, S. Mukhopadhyay

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引用次数: 5

Abstract

Remote wireless monitoring of physiological signals has emerged as a key enabler for biotelemetry and can significantly improve the delivery of healthcare. Improving the energy-efficiency and battery-lifetime of the monitoring units without sacrificing the acquired signal quality is a key challenge in large-scale deployment of bio-electronic systems for remote wireless monitoring. In this paper, we present a design methodology for low power wireless monitoring of Electroencephalography (EEG) data. The proposed design performs a real-time accuracy energy trade-off by controlling the volume of transmitted data based on the information content in the EEG signal. We consider the effect of different system parameters in order to design an optimal system. Our analysis shows that the proposed system design approach can provide significant savings in transmitter power with minimal impact on the monitored EEG signal accuracy. We analyze the impact of noise of the wireless channel and show that an adaptive compression system has better performance for BER ≪ 10−4.

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一种低功耗自适应数据压缩无线生理信号监测系统及其在无线脑电图中的应用

生理信号的远程无线监测已经成为生物遥测技术的关键推动因素，可以显著改善医疗保健的提供。在不牺牲采集信号质量的前提下提高监测单元的能效和电池寿命，是大规模部署用于远程无线监测的生物电子系统的关键挑战。在本文中，我们提出了一种低功耗无线监测脑电图(EEG)数据的设计方法。该设计根据脑电信号的信息量控制传输数据量，实现实时精度能量权衡。为了设计出最优的系统，我们考虑了不同系统参数的影响。我们的分析表明，所提出的系统设计方法可以在对监测的脑电信号精度影响最小的情况下显著节省发射机功率。我们分析了无线信道噪声的影响，并表明自适应压缩系统在BER≪10−4时具有更好的性能。

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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2010 11th International Symposium on Quality Electronic Design (ISQED)

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