The Research and Application of Crop Environment Remote Monitoring System Based on GPRS and Kingview

Liu Min

doi:10.4028/www.scientific.net/AMR.739.493

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The Research and Application of Crop Environment Remote Monitoring System Based on GPRS and Kingview
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 739The Research and Application of Crop Environment...

The Research and Application of Crop Environment Remote Monitoring System Based on GPRS and Kingview

Abstract:

This article designed a kind of crop environment remote monitoring system, it was configured with kingview 6.55, set the remote data acquisition, remote data transmission, remote control, automatic irrigation, pressure regulation, flow adjusting, overrun alarm, water pump automatic start-stop control for an integrated control system. The system realized monitoring, transmission, diagnosis, decision making and crop water dynamic management. And according to the information such as the water demand of crop growth to realize adaptive water-saving irrigation, the adaptive water-saving irrigation is realized to achieve a precise irrigation purpose. The system adopted B/S structure and the Web new edition function; the administrator can achieve the remote monitoring through the Internet which overcomes the restriction of time and location. At the same time, the crops field control level can select configure solar power as necessary which reduces the tedious work of electricity wiring, and achieves the purpose of energy conservation.

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Periodical:

Advanced Materials Research (Volume 739)

Pages:

493-498

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.739.493

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Online since:

August 2013

Authors:

Liu Min

Keywords:

Precise Control of Irrigation, Remote Monitoring System, Solar Power Supply

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References

[1] Nie Zhi-gang, Han Jun-ying, Jin Tao. Study and application of agricultural configuration software [J]. Automation and Instrumentation, 2011. 6: 117-118.

Google Scholar

[2] Gao Liang, Cheng Li, Yuan Qi-shou, Zhang Bin. Application of multiple regression analysis in soil humiduty sensor calibration [J]. Agricultural Mechanization Research, 2003. 4: 182-183.

Google Scholar

[3] Yang Shu-xian, Wang Zhi-liang. Development of modern agriculture demonstration bases monitoring system based on kingview [J]. China New Technologies and Progucts, 2010, 20: 21-22.

Google Scholar

[4] Gu Jian. Study of Agriculture micro environmental multi-parameter wireless monitoring system based on GPRS[D]. Harbin University of Science and Technology. (2011).

Google Scholar

[5] Xu Li, Ma Cheng-lin, Liu Shuai, Luo Jun-yao. PID control system design of liquid level [J]. The Electronic Test. 2011. 6: 94-97.

Google Scholar