Design and Implementation of an Ultra Low Power Health Monitoring Node for Wireless Body Sensor Network

Fangmin Sun, Zhan Zhao, Z. Fang, D. Chen, Xianxiang Chen, Y. Xuan
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引用次数: 4

Abstract

The human body consists of many complicated physiological signals such as blood pressure, electrocardiograph (ECG), respiratory rate, electroencephalograph (EEG), arterial oxygen saturation (SpO2), body temperature and so on, which, to some extent, reflects the health conditions of the people. Long term and continuous monitoring of these signals are of much importance for the detection and treatment of many diseases such as heart failure, hypertension, diabetes mellitus, etc. Wireless body sensor network is developed in this context and soon become very popular for its convenience and inexpensiveness. In this paper, we introduced the basic knowledge and techniques for low-power health monitoring nodes design, and then we described the design and implementation of an ultra low power ECG (LPECG) monitoring node for wireless body sensor network. We mainly discussed the hardware and software design of the low-power ECG monitoring node, and then we test the power consumption of the node when it working at different modes and the monitoring function of the node is tested and the results are presented, at last, we get the conclusion and pointed out the future development of the node.
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无线身体传感器网络超低功耗健康监测节点的设计与实现
人体由血压、心电图(ECG)、呼吸频率、脑电图(EEG)、动脉血氧饱和度(SpO2)、体温等许多复杂的生理信号组成,在一定程度上反映了人的健康状况。长期、连续监测这些信号对心衰、高血压、糖尿病等多种疾病的检测和治疗具有重要意义。无线身体传感器网络正是在这种背景下发展起来的,并以其便捷、廉价的特点迅速受到人们的欢迎。本文介绍了低功耗健康监测节点设计的基本知识和技术,并在此基础上设计和实现了一种用于无线身体传感器网络的超低功耗心电监测节点。本文主要讨论了低功耗心电监测节点的硬件和软件设计,然后对节点在不同模式下的功耗进行了测试,并对节点的监测功能进行了测试并给出了结果,最后得出结论并指出了该节点的未来发展方向。
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