农业环境实时感知与可视化管理系统
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摘要
本文设计了农业环境实时感知与可视化管理系统。系统由数据采集、无线传输、后端处理与存储以及显示与预警等模块组成,实现了远程无线、多区域、多参数、实时的农业环境数据采集、显示、存储、查询、统计、评估等功能。用户可以自由部署设备,利用Android手机APP随时随地观察实时监测数据,并评估农业环境质量,以便准确高效地改善农作物生长环境,为搭建精准农业系统以及果蔬质量追溯系统提供有效的环境数据基础。
In the paper,a real-time perception and remote management system is designed for the agricultural environment.The system is composed of data acquisition,wireless transmission,back-end processing and storage,display and early warning.Moreover,based on remote wireless,multi-region,multi-parameter and real-time,it realizes agricultural environment data acquisition,display,storage,query,statistics,evaluation and other functions.The uers can freely deploy devices,use Android mobile APP to observe real-time monitoring data whenever and wherever,and assess the quality of the agricultural environment in order to improve the growing environment of crops accurately and efficiently.It can provide an effective environmental data base for building precision agriculture system and fruit and vegetable quality traceability system.
In the paper,a real-time perception and remote management system is designed for the agricultural environment.The system is composed of data acquisition,wireless transmission,back-end processing and storage,display and early warning.Moreover,based on remote wireless,multi-region,multi-parameter and real-time,it realizes agricultural environment data acquisition,display,storage,query,statistics,evaluation and other functions.The uers can freely deploy devices,use Android mobile APP to observe real-time monitoring data whenever and wherever,and assess the quality of the agricultural environment in order to improve the growing environment of crops accurately and efficiently.It can provide an effective environmental data base for building precision agriculture system and fruit and vegetable quality traceability system.
引文
[1]刘燕德,赵文星,周衍华.基于果园环境信息监测的无线传感器网络节点设计[J].电子设计工程,2013,21(17):27-29.
[2]杨小东,曹开.研究电气工程自动化智能化技术的应用[J].江西建材,2015(20).
[3]王冬.基于物联网的智能农业监测系统的设计与实现[D].大连:大连理工大学,2013.
[4]江朝晖.远程农业监测信息系统设计与实现[J].农业网络信息,2010(11):40-43.
[5]刘南君,毛培宏.基于Arduino Mega2560单片机的简易智能割草机器人的设计与实现[J].安徽农业科学,2012(36):162-165.
[6]梁雪梅,余亮.基于ZigBee技术的教室雨滴感应模块设计[J].南方农机,2017(24).
[7]殷刚,赵琳.全智能大棚监控系统的设计[J].电子设计工程,2014,22(1):64-67.
[8]陈建新,高广岩,许海凤.三部国家标准露点算法的比较[J].门窗,2012(3):54-57.
[9]陆荣鑑,李品,孙周.SHT10传感器在温湿度监测系统中的应用[J].传感器与微系统,2012,31(9):136-138.
[10]王愿祥,程悦琪,孙先松.基于WiFi的无线测控终端系统设计[J].物联网技术,2018,8(9):23-26.
[11]朱丽.基于ZigBee技术的农用环境监测系统的设计与实现[D].成都:电子科技大学,2011.
[2]杨小东,曹开.研究电气工程自动化智能化技术的应用[J].江西建材,2015(20).
[3]王冬.基于物联网的智能农业监测系统的设计与实现[D].大连:大连理工大学,2013.
[4]江朝晖.远程农业监测信息系统设计与实现[J].农业网络信息,2010(11):40-43.
[5]刘南君,毛培宏.基于Arduino Mega2560单片机的简易智能割草机器人的设计与实现[J].安徽农业科学,2012(36):162-165.
[6]梁雪梅,余亮.基于ZigBee技术的教室雨滴感应模块设计[J].南方农机,2017(24).
[7]殷刚,赵琳.全智能大棚监控系统的设计[J].电子设计工程,2014,22(1):64-67.
[8]陈建新,高广岩,许海凤.三部国家标准露点算法的比较[J].门窗,2012(3):54-57.
[9]陆荣鑑,李品,孙周.SHT10传感器在温湿度监测系统中的应用[J].传感器与微系统,2012,31(9):136-138.
[10]王愿祥,程悦琪,孙先松.基于WiFi的无线测控终端系统设计[J].物联网技术,2018,8(9):23-26.
[11]朱丽.基于ZigBee技术的农用环境监测系统的设计与实现[D].成都:电子科技大学,2011.
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