Smart irrigation of agricultural crops


  • (1)  Murodov Otabek Ulugbekovich            the Bukhara branch of the Tashkent Institute of Irrigation and Agricultural Mechanization Engineers  
            Uzbekistan

  • (2)  Kattayev Bobir Sobirovich            Bukhara branch of the Tashkent Institute of Irrigation and Agricultural Mechanization Engineers  
            Uzbekistan

  • (3)  Saylixanova Maftuna Komiljonovna            Bukhara branch of the Tashkent Institute of Irrigation and Agricultural Mechanization Engineers  
            Uzbekistan

  • (4)  Ibodov Islom Nizomiy o`g`li            Bukhara branch of the Tashkent Institute of Irrigation and Agricultural Mechanization Engineers  
            Uzbekistan

    (*) Corresponding Author

DOI:

https://doi.org/10.47494/mesb.2020.3.16

Keywords:

smart, irrgiation, WFD device, WiFi rotor, irrigation duration, norms, filtration, pre-irrigation, soil moisture

Abstract

This article provides an overview of the concept of “smart irrigation” and a review of the results of research conducted abroad on smart irrigation. Therefore, research has been analyzed both analytical and practical aspects of the crops. It makes analyses on different research points to get more detailed information as a whole.

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References

Avliyoqulov M.A., Durdiev N.H. Smart irrigation of cotton // "IRRIGATION AND LAND RECLAMATION" magazine. - Tashkent, 2019. - №3 (17). - B. 13-21.

Resolution of the President of the Republic of Uzbekistan "On measures to increase the efficiency of water resources" dated July 2, 2018 No PP-3823. - Tashkent, 2018. - 8 p.

Stirzaker, RJ (2003). When to turn the water off: scheduling micro-irrigation with a wetting front detector. Irrigation Science, 22 (3-4). Pp. 177-185.

Hutchinson, PA, Stirzaker, RJ (2000) A new method and device for scheduling irrigation. Irrigation Association of Australia, May 23-25, 2000 National Conference. Pp. 584-592.

Charlesworth, PB (2000). Irrigation Insights No 1 - Soil Moisture Monitoring. National Program for Irrigation Research and Development, CSIRO Publishing, Melbourne, Australia.

Stirzaker, R., Etherington, R., Lu, P., Thomson, T., & Wilkie, J. (2005). Improving irrigation with wetting front detectors. Pp. 1-68.

Stirzaker, RJ, & Hutchinson, PA (2006). Irrigation controlled by a wetting front detector: field evaluation under sprinkler irrigation. Soil Research, 43 (8), Pp. 935-943.

Stirzaker, R., Stevens, J., Annandale, J., Maeko, T., Steyn, M., Mpandeli, S., Maurobane, W., Nkgapele, J. and Jovanovic, N., 2004. Building capacity in irrigation management with wetting front detectors. Water Research Commission.

Carlesso, R., Petry, MT and Trois, C., 2008, October. The use of a meteorological station network to provide crop water requirement information for irrigation management. In International Conference on Computer and Computing Technologies in Agriculture (Pp. 19-27). Springer, Boston.

Published

2020-08-09

How to Cite

Murodov Otabek Ulugbekovich, Kattayev Bobir Sobirovich, Saylixanova Maftuna Komiljonovna, & Ibodov Islom Nizomiy o`g`li. (2020). Smart irrigation of agricultural crops. Middle European Scientific Bulletin, 3, 1-3. https://doi.org/10.47494/mesb.2020.3.16

Issue

Section

Philosophy. Psychology. Religion

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