Study on Groundwater Level Testing System Based on Wireless Network in Irrigation Region

Bin Zhao; Shu Juan Yi; Li Hong Kuang

doi:10.4028/www.scientific.net/AMM.241-244.140

Paper Titles

Test Points Optimal Design for Hydraulic System MSIF Fault Diagnosis
p.119

The Design of Performance Testing System for Small Motors
p.125

A Fuzzy Temperature Control System for Pressure-Sensitive Paint Measurement
p.129

Design of the Mixed Gas Quantitative Analysis Based on Grating Spectral
p.135

Study on Groundwater Level Testing System Based on Wireless Network in Irrigation Region
p.140

Development of Detection Platform for Grid-Connected Photovoltaic Inverters
p.145

Optimal Weighted Least Square Data Fusion Method for Redundant IMU Based on Calculation of Measurement Error
p.149

Experimental Study on a New Type of Cooling Device Used in High Heat Dissipation of CPU
p.156

The All-Optical Fiber Perimeter Alarm System
p.160

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 241-244Study on Groundwater Level Testing System Based on...

Study on Groundwater Level Testing System Based on Wireless Network in Irrigation Region

Abstract:

Groundwater level data in paddy rice irrigation region are the important basis for rational utilizing groundwater resource. According to current situation of backward measuring methods to groundwater level in irrigation region, and the characters of monitoring sites dispersion and long distance, distributing control system structure was applied. The microcomputer served as upper machine manages the lower machine and processes the data. MCU served as lower machine instantaneously measures water level. Wireless communication modules were applied to transmit data. Experiment was conducted in Jianshanjiang agricultural department. The results show: quantity of testing site in network up to 65536, max error 0.49%, collecting time 5～10s, power consumption 2.4W, and idle mode consumption 72mW. This system has the characters of lower consumption and cost, high dependability, convenient network management.

You might also be interested in these eBooks

Industrial Instrumentation and Control Systems

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 241-244)

Pages:

140-144

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.241-244.140

Citation:

Cite this paper

Online since:

December 2012

Authors:

Bin Zhao, Shu Juan Yi, Li Hong Kuang

Keywords:

Groundwater Level, Irrigation Region, Testing, Wireless Network

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Cheng Juan, Sun Shuyun, Nie Jianping,et al. Exploitation and Reverse of groundwater resources in China. Water Resources and Hydropower Engineering. 34 (2003) 1-3.

Google Scholar

[2] Fu Qiang,Liang Chuan, ;Yang Guangli. Development potential of well irrigation for rice in Sanjiang Plain.System Sciences and Comprehensive Studies in Agriculture.18 (2002) 23-27.

Google Scholar

[3] Zhang Zhongyuan, Lin Chunfang. Study on Intelligent Water-Level Detective Monitor Based On UPSD3454Single Chip Computer. Journal of Suzhou University. 22 (2007) 85-87.

Google Scholar

[4] Wang Jixing,Ma Zhan. Application of bubble stage gauge in hydrologic telemetry system. Hydrology.25 (2005) 53-55.

Google Scholar

[5] Yang Hongling, Ma Shu-sheng,Zhang Jiayi,et al. Comparative study on ultrasonic and velocity instrument in the flow measurement of open channel.Journal of Shandong Agricultural University (Natural Science) 39 (2008) 301-304.

Google Scholar

[6] Wu Jianhua,Wei Rusheng,Sun Dongyong,et al. TC-401 water level automatic monitor sensor development and its application on farmland water conservancy. Transactions of the CSAE. 24 (2008) 174-177.

Google Scholar

[7] Ma Fuchang, Guo Jianzhu. Groundwater level automatic measurement new technology. Shanxi Water Resources. 2 (2005) 59-60.

Google Scholar

[8] Ye Shuhua, Huang Cheng. Space technique monitoring and prediction of ground water chinges. Progress in Geophysics. 22 (2007) 1030-1034.

Google Scholar

[9] Shi Yun,Qian. Dongping,Lü. Changfei. Intelligent wireless-sensor-based groundwater monitoring system. Transactions of the CSAE. 24 (2008) 58-71.

Google Scholar

[10] Zeng Yanchao, Qin Jianwei. A groundwater level automatic measurement and transimission system based on short message service of GSM. Microcomputer Information. 21 (2005) 122-124.

Google Scholar