Please use this identifier to cite or link to this item: http://ena.lp.edu.ua:8080/handle/ntb/55956
Title: Studies of temperature-humidity characteristics of the greenhouse cyber-physical system
Authors: Midyk, Andrii-Volodymyr
Lysa, Olha
Affiliation: Lviv Polytechnic National University
Lviv National Agrarian University
Bibliographic description (Ukraine): Midyk A. Studies of temperature-humidity characteristics of the greenhouse cyber-physical system / Andrii-Volodymyr Midyk, Olha Lysa // Measuring Equipment and Metrology. — Lviv : Lviv Politechnic Publishing House, 2020. — Vol 81. — No 2. — P. 7–12.
Bibliographic description (International): Midyk A. Studies of temperature-humidity characteristics of the greenhouse cyber-physical system / Andrii-Volodymyr Midyk, Olha Lysa // Measuring Equipment and Metrology. — Lviv : Lviv Politechnic Publishing House, 2020. — Vol 81. — No 2. — P. 7–12.
Is part of: Вимірювальна техніка та метрологія, 2 (81), 2020
Measuring Equipment and Metrology, 2 (81), 2020
Journal/Collection: Вимірювальна техніка та метрологія
Issue: 2
Issue Date: 24-Feb-2020
Publisher: Видавництво Львівської політехніки
Lviv Politechnic Publishing House
Place of the edition/event: Львів
Lviv
DOI: doi.org/10.23939/istcmtm2020.02.007
Keywords: Cyber-physical system
Measurement
Microcontroller
Smart sensor
Smart actuator
Temperature
Humidity
Insolation
Number of pages: 6
Page range: 7-12
Start page: 7
End page: 12
Abstract: The main information parameters of the microclimate of greenhouse premises are substantiated, in particular: air temperature, relative humidity, illumination of greenhouse premises, soil temperature, soil humidity, the concentration of carbon dioxide. The cyber-physical system for vegetables’ cultivation with the regulation of temperature-humidity-insolation regime contains three subsystems, namely the subsystem of temperature control, the subsystem of humidity control, and the subsystem of insolation control. Accordingly, each of them is equipped with a conjugated smart sensor and a smart actuator. As a result, the choice of smart sensors and their location in the greenhouse is considered. CPS’s model has been performed and tested. To assess the uniformity of the temperature in the greenhouse and the points of the sensor's location, the temperature and humidity were measured previously. The defined set of their values were maintained while the CPS’ operation.
URI: http://ena.lp.edu.ua:8080/handle/ntb/55956
Copyright owner: © Національний університет “Львівська політехніка”, 2020
URL for reference material: http://www.fito-system.ru/teplichnoe-oborudovanie
https://arduino.ua/prod1683-datchik-vlajnosti-itemperatyri-dht21am2301
https://3d-diy.ru/wiki/arduino-datchiki/datchikvlazhnosti-i-temperatury-dht11/
https://arduinka.biz.ua/uk/datchik-osvitlenostiGy-302-bh1750-tsifroviy-p341c74.html
http://mypractic.ru/ds18b20-datchik-temperatury-sinterfejsom-1-wire-opisanie-na-russkom-yazyke.html
https://wiki.iarduino.ru/page/capacitive-soil-moisturesensor/
https://iarduino.ru/shop/Sensory-Datchiki/
https://arduino.ua/prod775-datchik-co2
https://arduino.ua/prod1532-datchik-co2-mh-z19
http://www.fito-system.ru/datchik-co2
https://ela.kpi.ua/bitstream/123456789/
References (Ukraine): [1] URL: http://www.fito-system.ru/teplichnoe-oborudovanie
[2] URL: https://arduino.ua/prod1683-datchik-vlajnosti-itemperatyri-dht21am2301
[3] URL: https://3d-diy.ru/wiki/arduino-datchiki/datchikvlazhnosti-i-temperatury-dht11/
[4] URL: https://arduinka.biz.ua/uk/datchik-osvitlenostiGy-302-bh1750-tsifroviy-p341c74.html
[5] URL: http://mypractic.ru/ds18b20-datchik-temperatury-sinterfejsom-1-wire-opisanie-na-russkom-yazyke.html
[6] URL: https://wiki.iarduino.ru/page/capacitive-soil-moisturesensor/
[7] URL: https://iarduino.ru/shop/Sensory-Datchiki/ datchikvlazhnosti-pochvy-emkostnoy.html
[8] URL: https://arduino.ua/prod775-datchik-co2
[9] URL: https://arduino.ua/prod1532-datchik-co2-mh-z19
[10] URL: http://www.fito-system.ru/datchik-co2
[11] Основи мікропроцесорної техніки: лабораторний практикум / В. С. Баран, Г. Г. Власюк, Ю. О. Оникієнко, О. І. Смоленська. URL: https://ela.kpi.ua/bitstream/123456789/ 27992/1/OMPT_laboratorni.pdf
References (International): [1] URL: http://www.fito-system.ru/teplichnoe-oborudovanie
[2] URL: https://arduino.ua/prod1683-datchik-vlajnosti-itemperatyri-dht21am2301
[3] URL: https://3d-diy.ru/wiki/arduino-datchiki/datchikvlazhnosti-i-temperatury-dht11/
[4] URL: https://arduinka.biz.ua/uk/datchik-osvitlenostiGy-302-bh1750-tsifroviy-p341c74.html
[5] URL: http://mypractic.ru/ds18b20-datchik-temperatury-sinterfejsom-1-wire-opisanie-na-russkom-yazyke.html
[6] URL: https://wiki.iarduino.ru/page/capacitive-soil-moisturesensor/
[7] URL: https://iarduino.ru/shop/Sensory-Datchiki/ datchikvlazhnosti-pochvy-emkostnoy.html
[8] URL: https://arduino.ua/prod775-datchik-co2
[9] URL: https://arduino.ua/prod1532-datchik-co2-mh-z19
[10] URL: http://www.fito-system.ru/datchik-co2
[11] Osnovy mikroprotsesornoi tekhniky: laboratornyi praktykum, V. S. Baran, H. H. Vlasiuk, Yu. O. Onykiienko, O. I. Smolenska. URL: https://ela.kpi.ua/bitstream/123456789/ 27992/1/OMPT_laboratorni.pdf
Content type: Article
Appears in Collections:Вимірювальна техніка та метрологія. – 2020. – Випуск 81, №2



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