扩展可穿戴传感器运行时间的可扩展ECG硬件和算法

2015 IEEE International Symposium on Medical Measurements and Applications (MeMeA) Proceedings Pub Date : 2015-05-07 DOI:10.1109/MEMEA.2015.7145209

A. Tobola, Chris Espig, F. Streit, Oliver Korpok, Björn Schmitz, Christian Hofmann, M. Struck, C. Weigand, Heike Leutheuser, B. Eskofier, Georg Fischer

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引用次数: 17

摘要

自然界中的一切事物都试图达到尽可能低的能量水平。因此，任何自然或人工系统都必须有能力调整自己以适应周围环境不断变化的要求。在本文中，我们通过设计一种在运行时可调节的心电传感器来解决这个问题，该传感器能够以牺牲信息内容为代价来降低功耗。采用标准的心电硬件和开源软件，实现了可穿戴应用的心电处理系统。已经测量了每种操作模式的平均功耗。最后，我们得出结论，简洁的上下文感知缩放是解决可穿戴传感器系统能量问题的关键特征。

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Scalable ECG hardware and algorithms for extended runtime of wearable sensors

Everything in nature tries to reach the lowest possible energy level. Therefore any natural or artificial system must have the ability to adjust itself to the changing requirements of its surrounding environment. In this paper we address this issue by an ECG sensor designed to be adjustable during runtime, having the ability to reduce the power consumption at cost of the informational content. Accessible for everyone, standard ECG hardware and open source software has been used to realize an ECG processing system for wearable applications. The average power consumption has been measured for each mode of operation. Finally we take conclusion to conciser context-aware scaling as key feature to address the energy issue of wearable sensor systems.

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2015 IEEE International Symposium on Medical Measurements and Applications (MeMeA) Proceedings

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