Automatization of water distribution control for irrigation

Yurchenko, Irirna F.

International Journal of Advanced and Applied Sciences

Int. j. adv. appl. sci.

EISSN: 2313-3724

Print ISSN: 2313-626X

Volume 4, Issue 2 (February 2017), Pages: 72-77

Title: Automatization of water distribution control for irrigation

Author(s): Irirna F. Yurchenko *

Affiliation(s):

Federal State Budgetary Scientific Institution, Moscow, Russia

https://doi.org/10.21833/ijaas.2017.02.013

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Abstract:

The relevance of research is determined by the need for automation of water distribution in irrigation systems, due to a significant increase in the load on the service Manager water management in connection with the growth of information necessary for the main functional tasks water system, caused by the restructuring of the economic mechanism of the country and the formation of new forms of land ownership and reclamation facilities. The aim of this work is improvement of methods, algorithms and computational and analytical systems computer information technology, ensures stability and uniformity of water delivery and eliminating waste water. Developed computer information technology allocation on inter-farm irrigation network based on the creation of models with the functions: preparation of fragments of planning water distribution decisions and operational management of the water supply; control; informational and technological support of management decision-making; analysis of water use. Solving management problems of water management at inter-farm irrigation systems in the following functional blocks: the formation of the scheme of inter-farm irrigation systems; creating a database of business plans and planning system water use (seasonal and decadal); operational management of water supply; preparation of reports. Implemented the adaptation of the models of water allocation on inter-farm irrigation systems to the conditions of the North Caucasus Federal district, showed the feasibility of their use for the development of indicators of water use under the existing legal and regulatory frameworks functioning water economy complexes of the scope of reclamation.

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Keywords: Automated management, Information computer systems, Irrigation

Article History: Received 31 October 2016, Received in revised form 26 January 2017, Accepted 28 January 2017

Digital Object Identifier:

https://doi.org/10.21833/ijaas.2017.02.013

Citation:

Yurchenko IF (2017). Automatization of water distribution control for irrigation. International Journal of Advanced and Applied Sciences, 4(2): 72-77

http://www.science-gate.com/IJAAS/V4I2/Yurchenko.html

References:

Alam MM and Wagner C (2016). The relative importance of monetary and non-monetary drivers for information and communication technology acceptance in rural agribusiness. Information Technology for Development - Special Issue: Conceptualizing and Researching the Socio-Economic Development Impact of ICT, 22(4): 654-671. https://doi.org/10.1080/02681102.2016.1155142

Deschka H, Erler S, El-Ayoubi L, Vogel C, Vöhringer L, and Wimmer-Greinecker G (2013). Suction-irrigation drainage: an underestimated therapeutic option for surgical treatment of deep sternal wound infections. Interactive Cardiovascular and Thoracic Surgery, 17(1):85-89. https://doi.org/10.1093/icvts/ivt078 PMid:23529753 PMCid:PMC3686369

Dinar A and Zilberman D (2012). The economics and management of water and drainage in agriculture. Springer Science and Business Media, Berlin, Germany.

Eom SB (1995). Decision support systems research: reference disciplines and a cumulative tradition. Omega, 23(5): 511-523. https://doi.org/10.1016/0305-0483(95)00018-J

Ginzberg MJ and Stohr EA (1983). A decision support: Issues and Perspectives- Processes and tools for decision support. North-Holland Publ. Co., Amsterdam, Netherlands. PMCid:PMC1920301

Gutiérrez J, Villa-Medina JF, Nieto-Garibay A, and Porta-Gándara MÁ (2014). Automated irrigation system using a wireless sensor network and GPRS module. IEEE Transactions on Instrumentation and Measurement, 63(1): 166-176. https://doi.org/10.1109/TIM.2013.2276487

Kydyrova ZS, Satymbekova KB, Kerimbek GE, Nurgalieva AA, Ilyas AA, Zhalbinova SK, and Kanafina AT (2016). Entrepreneurship development and business climate of Kazakhstan. International Journal of Environmental and Science Education, 11(14): 6381-6393.

Matveev YV, Valieva EN, Trubetskaya OV, and Kislov AG (2016). Globalization and regionalization: Institution aspect. Mathematics Education, 11(8): 3114-3126.

Pereira LS, Feddes RA, Gilley JR, and Lesaffre B (2013). Sustainability of irrigated agriculture. Springer Science and Business Media, Berlin, Germany.

Shao GC, Deng S, Liu N, Yu SE, Wang MH, and She DL (2014). Effects of controlled irrigation and drainage on growth, grain yield and water use in paddy rice. European Journal of Agronomy, 53: 1-9. https://doi.org/10.1016/j.eja.2013.10.005

Valipour M (2013). Need to update of irrigation and water resources information according to the progresses of agricultural knowledge. Agrotechnol S10:e001. https://doi.org/10.4172/2168-9881.S10-e001

Valipour M (2014). Future of the area equipped for irrigation. Archives of Agronomy and Soil Science, 60(12): 1641-1660. https://doi.org/10.1080/03650340.2014.905675

Worthington EB (2013). Arid land irrigation in developing countries: environmental problems and effects. Pergamon Press, Oxford, UK.