中国卫生信息管理杂志
中國衛生信息管理雜誌
중국위생신식관리잡지
CHINESE JOURNAL OF HEALTH INFORMATICS AND MANAGEMENT
2013年
6期
485-489
,共5页
杨龙频%周林%陈阳阳%杨龙麟
楊龍頻%週林%陳暘暘%楊龍麟
양룡빈%주림%진양양%양룡린
物联网%无线传感器%胸带传感设备%腕带传感设备%心电图传感器%三轴加速度传感器氧饱和度传感器%体域网
物聯網%無線傳感器%胸帶傳感設備%腕帶傳感設備%心電圖傳感器%三軸加速度傳感器氧飽和度傳感器%體域網
물련망%무선전감기%흉대전감설비%완대전감설비%심전도전감기%삼축가속도전감기양포화도전감기%체역망
Internet of things%Wireless sensors%Chest strap sensor equipment%Wrist strap sensor equipment%ECG sensor%Three-axis acceleration sensor%Oxygen saturation sensor%Body area networks
以国家自然科学基金项目“基于物联网技术的呼吸、脉搏异变及跌落的实时监测与报警的关键技术研究”为背景,提出基于无线传感器网络支持WiFi/3G/LTE协议标准中继传感节点构建的一个无处不在的实时医疗健康监测系统。在项目研究中,可穿戴式医疗传感设备是用来测量人类生命体征(如温度、血压、跌倒监测等),设备中内置的无线通信模块通过公用无线通信网络定时传输到实时医疗监测及分析系统。本文研究的架构是借助无线通信网络技术和优势,采用无线中继低功耗技术,自动计算最短路径进行测量数据传输,提高传输效率,降低功耗影响。
以國傢自然科學基金項目“基于物聯網技術的呼吸、脈搏異變及跌落的實時鑑測與報警的關鍵技術研究”為揹景,提齣基于無線傳感器網絡支持WiFi/3G/LTE協議標準中繼傳感節點構建的一箇無處不在的實時醫療健康鑑測繫統。在項目研究中,可穿戴式醫療傳感設備是用來測量人類生命體徵(如溫度、血壓、跌倒鑑測等),設備中內置的無線通信模塊通過公用無線通信網絡定時傳輸到實時醫療鑑測及分析繫統。本文研究的架構是藉助無線通信網絡技術和優勢,採用無線中繼低功耗技術,自動計算最短路徑進行測量數據傳輸,提高傳輸效率,降低功耗影響。
이국가자연과학기금항목“기우물련망기술적호흡、맥박이변급질락적실시감측여보경적관건기술연구”위배경,제출기우무선전감기망락지지WiFi/3G/LTE협의표준중계전감절점구건적일개무처불재적실시의료건강감측계통。재항목연구중,가천대식의료전감설비시용래측량인류생명체정(여온도、혈압、질도감측등),설비중내치적무선통신모괴통과공용무선통신망락정시전수도실시의료감측급분석계통。본문연구적가구시차조무선통신망락기술화우세,채용무선중계저공모기술,자동계산최단로경진행측량수거전수,제고전수효솔,강저공모영향。
Based on the National Natural Science Fund Project which is Key technology problem research for drop and vital signs monitoring and real-time alarm system based on IoT (number 61171190) as the background. An advanced ubiquitous healthcare monitoring system is proposed with the aid of wireless sensor network based on the WiFi/3G/LTE relay sensor nodes. In this work, wearable healthcare devices are used to measure the human body vital signs (for example: Temperature, pressure, fall monitoring), Device built-in wireless communication module via a public wireless communication network to transmit real-time medical monitoring and analysis system. Our propose to set up framework through a wireless communication network technologies and the advantages of using low-power radio relay technology to automatically calculate the shortest path measurement data to improve the transmission efficiency, lower power consumption impact.
