基于物联网的核医学机房环境监测系统设计
|
摘要
目的利用物联网云平台技术搭建核医学机房环境监测系统,实现对设备机房温湿度及电压的远程实时监控。方法以ESP8266作为主控芯片,利用内置的Wi-Fi功能将传感器采集的数据无线传输至云端服务器,再通过手机客户端进行设备管理、数据查询。结果该系统实现了对核医学机房环境的实时监测,并具有历史查询、趋势分析、报警通知功能。结论该系统的使用为工程师日常巡检提供了方便,同时也为设备故障诊断、维护保养提供了参考信息,具有较高的应用价值。
Objective To build a nuclear medicine room environmental monitoring system by using the internet of things cloud platform technology to realize remote real-time monitoring of the temperature, humidity and voltage of the equipment room. Methods The data collected by the sensor was transmitted wirelessly to the cloud server with built-in Wi-Fi function, and the ESP8266 was used as the main control chip in this process. Then a mobile client was designed to manage device and query data. Results The real-time monitoring of the environment of nuclear medicine room with functions of historical query, trend analysis and alarm notification were realized by this system. Conclusion The use of the system provides convenience for engineers to make routine inspection, and also provides reference information for equipment fault diagnosis and maintenance, which is of high application value.
Objective To build a nuclear medicine room environmental monitoring system by using the internet of things cloud platform technology to realize remote real-time monitoring of the temperature, humidity and voltage of the equipment room. Methods The data collected by the sensor was transmitted wirelessly to the cloud server with built-in Wi-Fi function, and the ESP8266 was used as the main control chip in this process. Then a mobile client was designed to manage device and query data. Results The real-time monitoring of the environment of nuclear medicine room with functions of historical query, trend analysis and alarm notification were realized by this system. Conclusion The use of the system provides convenience for engineers to make routine inspection, and also provides reference information for equipment fault diagnosis and maintenance, which is of high application value.
引文
[1]张峰,程木华,郑子梅,等.探讨符合线路SPECT/CT的日常质量控制与质量保证[J].分子诊断与治疗杂志,2007,(3):42-45.
[2]范兴隆.ESP8266在智能家居监控系统中的应用[J].单片机与嵌入式系统应用,2016,16(9):52-56.
[3]林珠妹.基于DHT22的数字式温湿度计的设计[J].佳木斯大学学报(自然科学版),2016,34(2):223-225.
[4]刘杨生.电能质量监测分析系统设计与实现[D].南京:南京信息工程大学,2017.
[5]公茂法,公鑫,张敏,等.基于OneNet平台的电力负荷监测系统的研究[J].电测与仪表,2017,54(15):65-68.
[6]朱文彬,王海燕.小信号精密整流电路设计[J].中小企业管理与科技(上旬刊),2016,(9):176-177.
[7]左金威,赵恒,陈重佑,等.基于半波真有效值的触/漏电故障电流检测[J].四川电力技术,2017,(3):66-72.
[8]陈宝远,褚庆文,孙忠祥,等.一种基于OneNet设备云的智能硬件组网方法[J].哈尔滨理工大学学报,2017,22(5):76-80.
[9]刘影,王宛,王智霖,等.基于云平台的智能医疗监护系统设计[J].物联网技术,2017,7(12).
[10]张萍.基于ESP8266和OneNET云平台的远程报警系统[J].单片机与嵌入式系统应用,2017,17(12):64-67.
[11]袁军,钟照林.PET设备对安装环境的设计要求[A].中华医学会医学工程学分会第二次医学影像设备应用技术研讨会[C].2001:83-84.
[12]姚丹,谢雪松,杨建军,等.基于MQTT协议的物联网通信系统的研究与实现[J].信息通信,2016,(3):33-35.
[13]龚永罡,付俊英,汪昕宇,等.MQTT协议在物联网中的应用研究[J].电脑与电信,2017,(11):89-91.
[14]中国移动通信集团.硬件接入—中国移动物联网开放平台[EB/OL].[2018-07-09].http://open.iot.10086.cn/doc/art459.html#107.
[15]刘晓剑.基于Onenet的物联网监控系统[D].郑州:郑州大学,2016.
[16]中国移动通信集团.应用开发—中国移动物联网开放平台[EB/OL].[2018-07-09].http://open.iot.10086.cn/doc/art518.html#108.
[2]范兴隆.ESP8266在智能家居监控系统中的应用[J].单片机与嵌入式系统应用,2016,16(9):52-56.
[3]林珠妹.基于DHT22的数字式温湿度计的设计[J].佳木斯大学学报(自然科学版),2016,34(2):223-225.
[4]刘杨生.电能质量监测分析系统设计与实现[D].南京:南京信息工程大学,2017.
[5]公茂法,公鑫,张敏,等.基于OneNet平台的电力负荷监测系统的研究[J].电测与仪表,2017,54(15):65-68.
[6]朱文彬,王海燕.小信号精密整流电路设计[J].中小企业管理与科技(上旬刊),2016,(9):176-177.
[7]左金威,赵恒,陈重佑,等.基于半波真有效值的触/漏电故障电流检测[J].四川电力技术,2017,(3):66-72.
[8]陈宝远,褚庆文,孙忠祥,等.一种基于OneNet设备云的智能硬件组网方法[J].哈尔滨理工大学学报,2017,22(5):76-80.
[9]刘影,王宛,王智霖,等.基于云平台的智能医疗监护系统设计[J].物联网技术,2017,7(12).
[10]张萍.基于ESP8266和OneNET云平台的远程报警系统[J].单片机与嵌入式系统应用,2017,17(12):64-67.
[11]袁军,钟照林.PET设备对安装环境的设计要求[A].中华医学会医学工程学分会第二次医学影像设备应用技术研讨会[C].2001:83-84.
[12]姚丹,谢雪松,杨建军,等.基于MQTT协议的物联网通信系统的研究与实现[J].信息通信,2016,(3):33-35.
[13]龚永罡,付俊英,汪昕宇,等.MQTT协议在物联网中的应用研究[J].电脑与电信,2017,(11):89-91.
[14]中国移动通信集团.硬件接入—中国移动物联网开放平台[EB/OL].[2018-07-09].http://open.iot.10086.cn/doc/art459.html#107.
[15]刘晓剑.基于Onenet的物联网监控系统[D].郑州:郑州大学,2016.
[16]中国移动通信集团.应用开发—中国移动物联网开放平台[EB/OL].[2018-07-09].http://open.iot.10086.cn/doc/art518.html#108.