基于zigbee的无线传感器网络监测患者脉搏状态的性能评价

2013 International Conference on Information Technology and Electrical Engineering (ICITEE) Pub Date : 2013-12-02 DOI:10.1109/ICITEED.2013.6676255

M. Niswar, A. A. Ilham, E. Palantei, R. Sadjad, Andani Ahmad, A. Suyuti, Indrabayu, Z. Muslimin, Tadjuddin Waris, Puput Dani Prasetyo Adi

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引用次数: 37

摘要

近年来，无线传感器网络在医疗保健领域得到了广泛的应用。我们开发了一种无线传感器网络，可以监测患者的脉搏状态，用于分诊，这样医疗团队就可以远程监测患者的健康状况，并根据患者健康状况的严重程度对患者进行治疗。我们开发了一种电子分诊，作为一个传感器节点(SN)标签在患者的手臂上。SN由微控制器ATmega328P、ZigBee和脉搏传感器组成，用于检测患者的脉搏。来自传感器的脉冲速率作为电子分诊，由SN中的微控制器将其分为严重、轻微和正常三种严重状态，并通过ZigBee接口发送给协调节点(CN)。我们的系统可以部署在急诊室、分诊室、医院的术前/术后手术以及灾区。本文旨在评估我们开发的基于zigbee的无线传感器网络的性能。我们评估了通过ZigBee传输患者脉搏率的CN和SN之间的有效距离以及单个CN可以容纳的SN的有效数量。实验结果表明，CN与SN之间传输脉冲速率数据的有效距离小于30米，单个CN可容纳的最大SN数为3个节点。

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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Performance evaluation of ZigBee-based wireless sensor network for monitoring patients' pulse status

Recently, the wireless sensor network has been widely deployed for medical care purpose. We have developed a wireless sensor network that can monitor the patients' pulse status for triage purpose, so that a medical team can monitor remotely the health condition of patient and they can treat the patient based on severity of patients' health condition. We developed an electronic triage operating as a sensor node (SN) tagged in patient's arm. The SN consists of microcontroller ATmega328P, ZigBee and pulse sensor to detect patient's pulse. Operating as an electronic triage, the pulse rate from sensor is classified into three categories of severe conditions, i.e., major, minor, and normal status by the microcontroller in SN and sent to the coordinator node (CN) through ZigBee interface. Our system can be deployed in emergency room, triage room, pre/post-op surgery in hospital as well as in disaster area. This paper aims to evaluate the performance of the ZigBee-based wireless sensor network that we developed. We evaluate the effective distance between CN and SN to deliver patients' pulse rate via ZigBee as well as the effective number of SNs that can be accommodated by single CN. The experimental results shown that the effective distance between CN and SN to deliver the pulse rate data is less than 30 meters and the maximum number of SNs can be accommodated by a single CN is 3 (three) nodes.

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2013 International Conference on Information Technology and Electrical Engineering (ICITEE)

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