[1]张 燕,刘晓莎,汪晓红,等.基于WSN的水质自动监测系统硬件电路设计[J].机械与电子,2021,(02):55-58.
ZHANG Yan,LIU Xiaosha,WANG Xiaohong,et al.Hardware Circuit Design of Water Quality Automatic Monitoring System Based on WSN[J].Machinery & Electronics,2021,(02):55-58.
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基于WSN的水质自动监测系统硬件电路设计()
机械与电子[ISSN:1001-2257/CN:52-1052/TH]
- 卷:
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- 期数:
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2021年02期
- 页码:
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55-58
- 栏目:
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自动控制与检测
- 出版日期:
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2021-02-26
文章信息/Info
- Title:
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Hardware Circuit Design of Water Quality Automatic Monitoring System Based on WSN
- 文章编号:
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1001-2257(2021)02-0055-04
- 作者:
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张 燕; 刘晓莎; 汪晓红; 田永毅
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陕西工业职业技术学院,陕西 咸阳 712000
- Author(s):
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ZHANG Yan; LIU Xiaosha; WANG Xiaohong; TIAN Yongyi
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Shaanxi PolytechnicInstitute,Xianyang 712000,China
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- 关键词:
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WSN; 水质监测; 传感器节点; 无线网关
- Keywords:
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WSN; water quality monitoring; sensor node; wireless gateway
- 分类号:
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TN914;TP277
- 文献标志码:
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A
- 摘要:
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针对水资源污染日益严重的问题,融合WSN技术、嵌入式技术和4G技术重点设计了一款水质自动监测系统。系统通过数量众多的传感器节点采集水质的温度、pH值、电导率、浊度等参数,并将其传输给以树莓派3为控制核心的无线网关。无线网关将数据通过4G网络传输至OneNET云,监测中心从云服务器获取数据进行相关处理。通过搭建的实验系统进行功能测试。测试结果表明,所设计的硬件系统能够对水质参数进行远程实时监测,实现数据的实时、精确、低功耗采集与传输,有效降低了人力支出,且系统部署方便,组网灵活,应用前景广阔。
- Abstract:
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Aiming at the increasingly serious water pollution problem, an automatic water quality monitoring system is designed by integrating WSN technology, embedded technology and 4G technology. Through a large number of sensor nodes, the system collects water temperature, pH, conductivity, turbidity and other parameters, and transmits them to the wireless gateway with raspberry Pai 3 as the control core. The wireless gateway transmits the data to OneNET cloud through 4G network, and the monitoring center obtains the data from the cloud server for relevant processing. Through the function test of the experimental system, the test results show that the designed hardware system can carry out remote real-time monitoring of water quality parameters, achieve real-time, accurate, low-power data acquisition and transmission, effectively reduce the human expenditure, and the system is easy to deploy, flexible networking, and broad application prospects.
参考文献/References:
[1]鲍玉军,张兵,丁国梁.水质参数监测无线传感器网络汇聚节点设计[J].华中师范大学学报(自然科学版),2015,49(4):527-531.
[2]薛立成,丁彦闯,李云鹏.基于Android和Zigbee的无线温度监测系统设计[J].电子测量技术,2018,41(7):120-123.
[3]李锐.基于AT89C51单片机的大棚温控系统设计[J].电子科技,2020(2):8-10.
[4]郭栋,刘煜博.基于ATM8的水质pH检测仪的设计[J].工业控制计算机,2020,33(1):137-138.
[5]欧启标,赵剑川,刘建圻,等.提高水质溶液pH值测量精确度的研究[J].电子设计工程,2020,28(1):84-88.
[6]姬忠勇.水质电导率的测量原理分析及方法介绍[J].科技信息,2013(10):347.
[7]夏治安,齐华,刘军,等.面向污水监测系统的传感器节点改进设计[J].机械与电子,2017,35(8):54-57.
备注/Memo
- 备注/Memo:
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收稿日期:2020-10-09
基金项目: 陕西工业职业技术学院院级科研项目(2020YKYB-049)
作者简介:张 燕(1974-),女,陕西西安人,硕士研究生, 讲师,研究方向为嵌入式、物联网及信号与信息处理。
更新日期/Last Update:
2021-02-26