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基于GPRS的地表水远程在线监测系统研究 被引量:5

Research of remote online monitoring system for surface water based on GPRS
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摘要 介绍了一种基于GPRS的地表水远程在线监测系统。本系统由水质监测装置、数据采集模块、GPRS网络传输模块和监控中心服务器组成,采用自行设计的数据采集模块和监控中心软件,以较低的成本和较高的精度实现了地表水的远程在线监测。本系统极大的提高了水质监测的实时性和连续性,能够真实地反映水体质量和污染变化趋势,可以为环境监管部门提供实时可靠的数据依据。本系统运行和维护费用较低,能节省大量人力、物力和财力。实验表明,本系统具有低成本、高精度、高可靠性等优点,可满足地表水远程在线监测的需求,具有良好的应用价值。 In this paper,a GPRS-based remote online monitoring system for surface water is introduced. This system consists of water quality monitoring device, data acquisition module, GPRS network transmission module and the monitoring center server. By using self-designed data acquisition module and monitoring center software, we realize the remote on-fine monitoring for surface water with lower cost and higher precision. This system greatly improves the real- time performance and continuity of surface water monitoring, can truly reflect the water quality and pollution trends, can provide real-time reliable data basis to the environmental monitoring agency. The operation and maintenance cost of this system is low, so it can save a lot of manpower,material and financial resources. Experiments show that this system has low-cost,high accuracy and high reliability, can meet the need of remote online monitoring of surface water, and is of great application values.
作者 李源 祁欣
机构地区 北京化工大学理学院
出处 《电子测量技术》 2013年第12期118-122,128,共6页 Electronic Measurement Technology
关键词 GPRS 远程监测 水质监测 数据传输 GPRS remote monitoring water quality monitoring data transmission
分类号 TP277 [自动化与计算机技术—检测技术与自动化装置]
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参考文献9

二级参考文献34

共引文献207

同被引文献46

  • 1王建新,杨世凤,史永江,童官军.远程监控技术的发展现状和趋势[J].国外电子测量技术,2005,24(4):9-12. 被引量:110
  • 2牛斗,曲广强,曲洁,李丹.基于GPRS的电力系统远程监控设计与研究[J].电子测量技术,2006,29(5):167-169. 被引量:16
  • 3王运生,谢丙炎,万方浩,肖启明,戴良英.ROC曲线分析在评价入侵物种分布模型中的应用[J].生物多样性,2007,15(4):365-372. 被引量:503
  • 4张晋斌.基于GPRS的无线监控与数据采集系统技术的研究[J].太原理工大学学报,2006(4):6-8.
  • 5FRANCESCHINI S, TSAI C W. Assessment of uncer- tainty sources in water quality modeling in the Niagara River [ J ]. Advances in Water Resources, 2010, 33(4) : 493-503.
  • 6YING M, HEHAI X, TIANYU Z. Application of fuzzy mathematics for assessment of water quality [ J l- Nature Environment and Pollution Technology, 2015, 14 ( 1 ) : 191-194.
  • 7LA! C L, CHIU C L. Using image processing technology for water quality monitoring system [ C].IEEE Interna- tional Conference on Machine Learning and Cybernetics (ICMLC), 2011, 4: 1856-1861.
  • 8KUKLINA I, KOUBA A, KOZrK P. Real-time monito- ring of water quality using fish and crayfish as bio-indica- tors: A review [ J ]. Environmental Monitoring and As- sessment, 2013, 185(6): 5043-5053.
  • 9MA H, TSAI T F, LIU C C. Real-time monitoring of wa- ter quality using temporal trajectory of live fish [ J ]. Ex- pert Systems with Applications, 2010, 37 ( 7 ): 5158-5171.
  • 10KIM C M, SHIN M W, JEONG S M, et al. Real-time motion generating method for artificial fish[ J ]. Computer Science and Network Security, 2007, 7(10): 52-61.

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电子测量技术
2013年 第12期

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