基于无线传感网络的农田远程监测系统设计
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摘要
针对水资源短缺和土地资源日益减少的问题,提出了基于无线传感网络的农田远程监测系统设计.该系统基于无线传感器网络(WSN)技术,通过控制物理参数来监控这些系统像湿度,温度等从而改善作物产量.WSN由许多节点组成,使信息成为可能通过使用一组传感器捕获,这些传感器能够与网络本身内的其他信息进行通信并处理数据以执行特定的任务.最后设计实验对该农田远程监测系统进行验证,结果显示系统整体运行情况良好.
In view of the shortage of water resources and the declining land resources,this paper proposes the design of farmland remote monitoring system based on wireless sensor network.The system is based on Wireless Sensor Network(WSN) technology,which monitors physical systems to monitor such systems as humidity,temperature,etc.to improve crop yield. The WSN consists of a number of nodes,making it possible to capture information by using a set of sensors that can communicate with other information within the network itself and process the data to perform specific tasks. Finally,the design experiment verified the farmland remote monitoring system,and the results showed that the overall operation of the system was good.
In view of the shortage of water resources and the declining land resources,this paper proposes the design of farmland remote monitoring system based on wireless sensor network.The system is based on Wireless Sensor Network(WSN) technology,which monitors physical systems to monitor such systems as humidity,temperature,etc.to improve crop yield. The WSN consists of a number of nodes,making it possible to capture information by using a set of sensors that can communicate with other information within the network itself and process the data to perform specific tasks. Finally,the design experiment verified the farmland remote monitoring system,and the results showed that the overall operation of the system was good.
引文
[1]姜秋香,周智美,王子龙,等.基于水土资源耦合的水资源短缺风险评价及优化[J].农业工程学报,2017,33(12):136-143.
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[7]付莉,付秀伟.基于Zig Bee和GPRS的高寒地区鳄鱼养殖环境监控系统设计[J].吉林化工学院学报,2017(7):57-61.
[8] Bo Z,Shu X,Huang R.The Development of Inductive and Resonant Wireless Power Transfer Technology[J].Transactions of China Electrotechnical Society,2017,32(18):3-17.
[9]梁莉娟.基于Android的农业温室环境远程监测系统[J].江苏农业科学,2017,45(15):206-209.
[10]郭鹏,马建辉,Guo Peng,等.农业温室大棚智能环境监测系统设计[J].中国农机化学报,2016,37(4):71-73.
[2]雷鸣,孔祥斌.水资源约束下的黄淮海平原区土地利用结构优化[J].中国农业资源与区划,2017,38(6):27-37.
[3] Blanc E,Caron J,Fant C,et al.Is current irrigation sustainable in the United States? An integrated assessment of climate change impact on water resources and irrigated crop yields[J]. Earths Future,2017,5(8):877-892.
[4]陈磊,王维.生产环境远程预警系统设计[J].吉林化工学院学报,2018(7):106-110.
[5] Shkurti L,Bajrami X,Canhasi E,et al.Development of ambient environmental monitoring system throughwireless sensor network(WSN)using Node MCU and “WSN monitoring”[C]//Embedded Computing.IEEE,2017:1-5.
[6]袁文博.论现代无线通信技术发展现状及前景展望[J].中国新通信,2017,19(3):29.
[7]付莉,付秀伟.基于Zig Bee和GPRS的高寒地区鳄鱼养殖环境监控系统设计[J].吉林化工学院学报,2017(7):57-61.
[8] Bo Z,Shu X,Huang R.The Development of Inductive and Resonant Wireless Power Transfer Technology[J].Transactions of China Electrotechnical Society,2017,32(18):3-17.
[9]梁莉娟.基于Android的农业温室环境远程监测系统[J].江苏农业科学,2017,45(15):206-209.
[10]郭鹏,马建辉,Guo Peng,等.农业温室大棚智能环境监测系统设计[J].中国农机化学报,2016,37(4):71-73.
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