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Designing and Dismounting an Intelligent System of Irrigation Management for Greenhouse based on Delphi Software | ||
| journal of Artificial Intelligence in Electrical Engineering | ||
| مقاله 3، دوره 5، شماره 17، شهریور 2016، صفحه 21-28 اصل مقاله (654.25 K) | ||
| نویسنده | ||
| Davood mohammadi pirmorad | ||
| Department of Engineering, Ahar Branch, Islamic Azad University, Ahar, Iran | ||
| چکیده | ||
| The drought continuity and also restricting watery sources caused agriculture section forget old flooding methods for optimum water exploitation and proceeding new irrigation systems. New generation of irrigation systems called intelligent systems is a new solution leading to exploiting water increase to higher than 80%. In order to measure sensors and to control processors in designing and dismounting intelligent systems, Delphi programming and computer was administered in this study.. Managing works such as irrigation time and controlling temperature, humidity and even ventilation are managed and controlled automatically through adjusting the style of controlling intelligent systems. Processors are responsible for providing necessary factors about greenhouse such as heat, cold, light and humidity. Designing software in Delphi area caused all measuring parameters’ monitoring from greenhouse area in computer area. Central hardware system exports different orders through getting data from sensors for controlling processors. The processors used in this way should be able to establish a faster relationship between processors .We concluded that economizing should be done in using water from 40 up to 50 percent with managing irrigation time and round – the – clock temperature. Thus, the plant has enough amounts of nutritional materials. | ||
| کلیدواژهها | ||
| green house؛ controlling irrigation system؛ Sensors؛ Delphi software | ||
| مراجع | ||
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[1] Akramniya, F. (1996). La evaluación de los emisores de goteo y proporcionaruna óptimatécnica y económica. Tesis de maestría, Universidad de Teherán.. [2] Alemzadeh M. (1992).El diseño de sistemas de riegoTeherán University Press. [3] Alizade،a (1997)..Publicaciones de riegoporgoteo de la Universidad Ferdowsi de Mashhad [4] A wireless application of drip irrigation automation.supported by soil moisture sensors Mahir Dursun* and Semih Ozden. Department of Electrical Education, Technical Education Faculty, Gazi University, 06500, Teknikokullar, Ankara, Turke.Accepted 1 February, 2011. [5] Ebrahimi،h. Principios de los planes de aplicación poraspersión y riegoporgoteo, Islámica Azad University Press. [6] Elides. (1998). Irrigation of greenhouse growth cucumber. Journal of horticultural sience 63: 2, 235 –239, 14 ref. [7] Elies, J. E., G. Kruse and A. E. Mcsay. (1989). Scheduling irrigation for cucumber. Hort science HJHSAR, 24 (3): pp. 448 – 452. [8] Gassim, A. (2003). Micro-irrigation: A situation analysis: institute of sustainable irrigatedagriculture (ISIA) at Tatura, Australia, for the international programme for technology &research irrigation & drainage (IPTRID). [9] Hanson, B. and D. May. (2004). Effect of subsurface drip irrigation on Processing tomato yield,water table depth, soil salinity, and profitability. Agricultural Water Management. 48: 1-17. [10] Jin, L. and Young, W. (2001). Water use in agriculture in chaina, water policy. 3: 215- 228. [11] Komoura- M, A- K arimata, A. Mizuta, T. Takasu and A. Yonegasd. (1990). Fundamental studies onthe water irrigation method, water requirement and effect of irrigation for greenhouse cucumber. Journal of agriculture [12] Paper presented at issues forum Agricultural Industrialization: What’s in it for Wisconsin? held at Madison, Wisconsin, November 11, 1997. [13] Smith, M. and Mun ̃oz, G. (2002). Irrigation advisory services for effective water use: a reviewof experiences. Workshop on Irrigation Advisory Services and Participatory Extension inIrrigation Management, FAOICID. [14] Tabatabai, M. (1986). Aplicación Botánico de Agricultura y Recursos NaturalesVol [15] Tokihiro Fukatsu and TeruakiNanseki, (2009)." Monitoring System for Farming Operations with Wearable Devices Utilized Sensor Networks", Sensors Journal , 9 , ISSN 1424-8220. [16] Tuttle, S. and Lindener, J. R. and Dooley, K. E. (2006). Historical and current extension systeminDr, Arroyo, Northeastern Mexico.Proceedings of the 22nd association for internationalagriculture and extension education annual conference. Clearwater Beach: Florida. pp: 18-25. Path Problem. | ||
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