基于Arduino的校园环境监测系统
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摘要
当今社会科学技术在飞速发展的同时,科学技术的发展为人们的生活带来了巨大的变化,同时也为软硬件的发展提供了必要条件。监测系统不管是在工业领域农业领域还是环境领域都有着极大的实用价值,并且能够提高整个工作的效率,所以监测系统的发展成为了重要的工作之一。能够针对校园环境检测问题,利用Arduino UNO控制板和智能传感器结合物联网技术设计出能实时监控校园环境的智能设备。系统是以Arduino UNO以及DHT11温度传感器,灰尘传感器,声音传感器为硬件核心,通过传感器对校园环境的温度,光照强度,噪音变化等因素进行实时监控。基于Atmega328P单片机进行数据采集,并将数据传送到Yeelink网络平台实现异地监控,该系统可高效的实现对校园环境实施长期的监控并进行后期数据的分析。
The rapid development of science and technology in today's society,development of science and technology has brought great changes to people's lives,while also providing the necessary conditions for the development of hardware and software.The monitoring system has great practical value both in the agricultural field and the environmental field in the industrial field,and can improve the efficiency of the whole work.Therefore,the development of the monitoring system has become one of the important tasks.Based on the campus environment detection problem,the Arduino UNO control panel and smart sensors combined with IoT technology can be used to design smart devices that can monitor the campus environment in real time.The system uses Arduino UNO and DHT11 temperature sensors,dust sensors,and sound sensors as the hardware cores to monitor the temperature,light intensity,and noise changes of the campus environment in real time through sensors.Based on the Atmega328 PMCU for data acquisition and data transmission to the Yeelink network platform for remote monitoring,the system can effectively implement long-term monitoring of campus environments and post-analysis of data.
The rapid development of science and technology in today's society,development of science and technology has brought great changes to people's lives,while also providing the necessary conditions for the development of hardware and software.The monitoring system has great practical value both in the agricultural field and the environmental field in the industrial field,and can improve the efficiency of the whole work.Therefore,the development of the monitoring system has become one of the important tasks.Based on the campus environment detection problem,the Arduino UNO control panel and smart sensors combined with IoT technology can be used to design smart devices that can monitor the campus environment in real time.The system uses Arduino UNO and DHT11 temperature sensors,dust sensors,and sound sensors as the hardware cores to monitor the temperature,light intensity,and noise changes of the campus environment in real time through sensors.Based on the Atmega328 PMCU for data acquisition and data transmission to the Yeelink network platform for remote monitoring,the system can effectively implement long-term monitoring of campus environments and post-analysis of data.
引文
[1]葛佳奇.基于Arduino的智能环境监控系统设计[J].通讯世界,2017(8):288.
[2]李瑞华,刘峰,乔玉峰.基于Arduino的矿井环境实时检测系统设计与实现[J].电子设计工程,2017,25(5):274-276.
[3]张浩华,赵小姝,于欣禾,等.基于Arduino的温棚养殖环境监控系统[J].沈阳师范大学学报(自然科学版),2016,34(4):454-458.
[4]何晓冬.Arduino硬件平台下的微环境监测系统设计及应用[J].电子制作,2016(17):17-20.
[5]张烨.基于Arduino控制板的蔬菜大棚环境参数无线采集系统[J/OL].电子设计工程,2016,44(7):439-442.
[6]刘仲玺.基于Arduino硬件平台的微环境监测系统设计[J].安徽冶金科技职业学院学报,2016,26(1):23-26.
[7]李凯.基于YeeLink物联网平台的校园环境监测系统的设计[D].保定:河北大学,2015.
[8]朱世豪,彭克勤,彭络峰.基于arduino的室内空气检测器[J].无线互联科技,2015(1):191.
[9]张强武,唐露新,陈超锋,等.基于Arduino和Machtalk的温棚环境监测系统设计[J].单片机与嵌入式系统应用,2014,14(11):71-74.
[10]渠淼,牛国锋,冒张霄,等.基于Arduino的智能环境监控系统设计[J].微型机与应用,2014,33(20):83-85.
[11]杜一腾,迟宗涛.基于Arduino与yeelink平台的实时环境监测系统[J].单片机与嵌入式系统应用,2014,14(10):26-29.
[12]秦华,孙晓松.基于Arduino/Android的环境状况监测系统设计[J].无线互联科技,2013(1):59-61.
[13]蔡睿妍.Arduino的原理及应用[J].电子设计工程,2012,20(16):155-157.
[14]杨继志,郭敬.Arduino的互动产品平台创新设计[J].单片机与嵌入式系统应用,2012,12(4):39-41.
[15]孟萌.基于Arduino的物联网数据采集器设计与实现[D].北京:北京工业大学,2016.
[2]李瑞华,刘峰,乔玉峰.基于Arduino的矿井环境实时检测系统设计与实现[J].电子设计工程,2017,25(5):274-276.
[3]张浩华,赵小姝,于欣禾,等.基于Arduino的温棚养殖环境监控系统[J].沈阳师范大学学报(自然科学版),2016,34(4):454-458.
[4]何晓冬.Arduino硬件平台下的微环境监测系统设计及应用[J].电子制作,2016(17):17-20.
[5]张烨.基于Arduino控制板的蔬菜大棚环境参数无线采集系统[J/OL].电子设计工程,2016,44(7):439-442.
[6]刘仲玺.基于Arduino硬件平台的微环境监测系统设计[J].安徽冶金科技职业学院学报,2016,26(1):23-26.
[7]李凯.基于YeeLink物联网平台的校园环境监测系统的设计[D].保定:河北大学,2015.
[8]朱世豪,彭克勤,彭络峰.基于arduino的室内空气检测器[J].无线互联科技,2015(1):191.
[9]张强武,唐露新,陈超锋,等.基于Arduino和Machtalk的温棚环境监测系统设计[J].单片机与嵌入式系统应用,2014,14(11):71-74.
[10]渠淼,牛国锋,冒张霄,等.基于Arduino的智能环境监控系统设计[J].微型机与应用,2014,33(20):83-85.
[11]杜一腾,迟宗涛.基于Arduino与yeelink平台的实时环境监测系统[J].单片机与嵌入式系统应用,2014,14(10):26-29.
[12]秦华,孙晓松.基于Arduino/Android的环境状况监测系统设计[J].无线互联科技,2013(1):59-61.
[13]蔡睿妍.Arduino的原理及应用[J].电子设计工程,2012,20(16):155-157.
[14]杨继志,郭敬.Arduino的互动产品平台创新设计[J].单片机与嵌入式系统应用,2012,12(4):39-41.
[15]孟萌.基于Arduino的物联网数据采集器设计与实现[D].北京:北京工业大学,2016.