可穿戴式远程心率监测系统设计
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摘要
设计了一种基于无线通信技术的可穿戴式远程心率数据监护系统。本系统由STM32控制器作为主控模块,利用MAX30102传感器模块监测人体心率指标数据,配合A7模组(GPS+GSM+GPRS),实现了对用户位置的定位功能。当穿戴者的心率数据超出预设的范围时,能够通过GSM模块及时地向监护人发送提示短信。同时实时将数据通过无线网络发送至远程监测平台,通过智能医疗监测设备实现对穿戴者情况的同步显示,以便工作人员及时分析穿戴者的健康状况和所处环境,从而及时得到远程健康提醒,实现健康的双重保护。
This paper,based on wireless communication technology,designs a wearable remote heart rate data monitoring system,which takes STM32 controller as the main control module,uses MAX30102 sensor module to monitor the human heart rate index data,matches A7 module( GPS+GSM+GPRS) and realizes the localization function on the users' position. When the heart rate data of the wearer exceeds the preset range,prompt messages can be sent to the guardian via GSM module in a timely manner. At the same time,the data are sent to a remote monitoring platform through the wireless network and the synchronous display of the wearer's condition is realized through the intelligent medical monitoring equipment,so that the staff can make timely analysis on the wearer's health and the environment situation,and obtain remote health warning in time,so as to realize the dual protection of health.
This paper,based on wireless communication technology,designs a wearable remote heart rate data monitoring system,which takes STM32 controller as the main control module,uses MAX30102 sensor module to monitor the human heart rate index data,matches A7 module( GPS+GSM+GPRS) and realizes the localization function on the users' position. When the heart rate data of the wearer exceeds the preset range,prompt messages can be sent to the guardian via GSM module in a timely manner. At the same time,the data are sent to a remote monitoring platform through the wireless network and the synchronous display of the wearer's condition is realized through the intelligent medical monitoring equipment,so that the staff can make timely analysis on the wearer's health and the environment situation,and obtain remote health warning in time,so as to realize the dual protection of health.
引文
[1]可穿戴健康医疗设备前景广阔[J].健康管理,2014(2):25-31.
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[6]张煜.可穿戴动态心电监护系统与心电信号处理方法研究[D].成都:电子科技大学,2014.
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[11]王俊.基于Web和PC客户端的智慧医疗监护平台的设计与实现[D].北京:北京邮电大学,2015.
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[13]Xu L,Jin Y,Wang Q,et al.Multi-sensor fusion for wearable heart rate monitoring system[J].journal of Harbin Institute of Technology,2015,47(5):97-103.
[14]Hoctorrt,Dentingeram,Thomeniuske.Signal processing for ultrasound based arterial pulse wave welocity estimation[C].Montreal:A Conference of the IEEE International Ultrasonics,2004:1492-1497.
[15]Upkar Uarshney.Pervasive Healthcare and Wireless Health Monitoring[J].Mobile Networks and Applications,2007,12(23):113-127.
[2]滕晓菲,张元亭.移动医疗:穿戴式医疗仪器的发展趋势[J].中国医疗器械杂志,2006(5):330-340.
[3]郭维.穿戴式人体生理参数监测系统的研究与实现[D].长春:吉林大学,2012.
[4]吴金奖,陈建新,田峰,等.可穿戴无线生理参数监测设备的设计与实现[J].计算机应用,2014(2):330-332.
[5]叶学松.基于人体传感网的穿戴式远程健康监护系统的设计与实现[D].杭州:浙江大学,2013.
[6]张煜.可穿戴动态心电监护系统与心电信号处理方法研究[D].成都:电子科技大学,2014.
[7]戴明,王琪,吴万庆.一种低功耗脉搏血氧饱和度测量系统的设计[J].电子技术应用,2014(10):53-56.
[8]李新雨.基于单片机设计的脉搏测量仪[J].电子技术,2011(8):48-50.
[9]桑磊.基于物联网的智能医疗系统研究与运用[J].科技与企业,2011(13):77.
[10]刘晓燕.嵌入式以太网的通信技术研究[D].贵阳:贵州大学,2007.
[11]王俊.基于Web和PC客户端的智慧医疗监护平台的设计与实现[D].北京:北京邮电大学,2015.
[12]Knight,J.Baber,C.A.Bristow,H.W,The Comfort Assessment of Wearable Computers[C].Proc.ISWC.2002:65-72.
[13]Xu L,Jin Y,Wang Q,et al.Multi-sensor fusion for wearable heart rate monitoring system[J].journal of Harbin Institute of Technology,2015,47(5):97-103.
[14]Hoctorrt,Dentingeram,Thomeniuske.Signal processing for ultrasound based arterial pulse wave welocity estimation[C].Montreal:A Conference of the IEEE International Ultrasonics,2004:1492-1497.
[15]Upkar Uarshney.Pervasive Healthcare and Wireless Health Monitoring[J].Mobile Networks and Applications,2007,12(23):113-127.