Abstract
Vegetable growing in greenhouses is an important sector of agriculture, providing the population with fresh vegetables throughout the year. In greenhouses that are typical representatives of hothouse plants, technological parameters of growing plants microclimate support systems, and their functioning is accompanied by costly energy resources, which in turn affects the cost of production. Modern systems of providing growing plants process usually do not track their states in response to the action of natural disturbances, which makes it impossible to accumulate knowledge about the plant but do not to predict its productivity. Therefore, as a result, there is a need to develop energy-efficient method of managing electrical complex in the greenhouse, which takes into account the biological component of the facility during its operation to maximize profits.
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References
Lysenko, V., Lendiel, T.: Modeli dlya formuvannya optimalnix strategij keruvannya u sporudax zakritogo gruntu. Visnik AgrarnoŃ Nauki 10, 45â48 (2015)
Korobiichuk, I., Bezvesilna, O., Ilchenko, A., Shadura, V., Nowicki, M., Szewczyk, R.: A mathematical model of the thermo-anemometric flowmeter. Sensors 15, 22899â22913 (2015)
Korobiichuk, I.: Mathematical model of precision sensor for an automatic weapons stabilizer system. Measurement 89, 151â158 (2016)
Karachun, V., Melânick, V., Korobiichuk, I., Nowicki, M., Szewczyk, R., Kobzar, S.: The additional error of inertial sensor induced by hypersonic flight condition. Sensors 16(3) (2016)
Lysenko, V., Bolbot, I., Lendiel, T.: Vejvlet-analiz v fitometrii rastenij. Sbornik nauchnyx trudov «aktualnye voprosy sovremennoj nauki», 163â173 (2014)
Lysenko, V., Bolbot, I., Miroshnik, V., Lendiel, T.: Temperatura roslin yak parametr dlya regulyuvannya. Naukovij visnik NUBIPU 209(1), 64 â72 (2015)
Lysenko, V., Bolbot, I., Lendiel, T.: Fitotemperaturnij kriterij ocinki rozvitku roslini. Naukovij zhurnal «Energetika i avtomatika» 3(11), 122â128 (2013)
Lysenko, V., Miroshnik, V., Lendiel, T.: Modeling the spatial distribution of temperature zones in the greenhouse. Naukovij zhurnal «bioresursi i prirodokoristuvannya» 7(1, 2), 159â165 (2015)
Lysenko, V., Miroshnik, V., Lendiel, T.: Optimizaciya viroshhuvannya tomativ v teplici z vikoristannyam funkciŃ bazhanosti xarringtona. Zhurnal «Avtomatizaciya texnologichnix ta biznes-procesiv» 7(4), 33â39 (2015)
Lysenko, V., Bolbot, I., Lendiel, T., Chernov, I.: Pat. 103274 ua, MPK G05b 13/00 (2015.01): Sistema upravlinnya biotexnichnimi obektami. Patent opublikovano 10.12.2015, Byul. â 23
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Korobiichuk, I., Lysenko, V., Reshetiuk, V., Lendiel, T., KamiĆski, M. (2017). Energy-Efficient Electrotechnical Complex of Greenhouses with Regard to Quality of Vegetable Production. In: Szewczyk, R., KaliczyĆska, M. (eds) Recent Advances in Systems, Control and Information Technology. SCIT 2016. Advances in Intelligent Systems and Computing, vol 543. Springer, Cham. https://doi.org/10.1007/978-3-319-48923-0_30
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DOI: https://doi.org/10.1007/978-3-319-48923-0_30
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