THE APPLICATION OF IOT SOLUTIONS IN GREENHOUSES WITH THE AIM OF REDUCING ELECTRICAL ENERGY CONSUMPTION
Abstract
In this paper, we will show a prototype of a system designed based on Internet of Things solutions with the aim of optimizing electrical energy consumption in order to achieve desired conditions for the growth and development of plants located in the greenhouse. The physical parameters that this system monitors are temperature, relative humidity, soil humidity and luminescence levels. In this prototype, we have three measurement nodes with the task of collecting parameter data, processing them and sending resulting data, via wireless communication, to a receiver. The receiver forwards data to the application on PC. The application processes the data and displays it to the end user who can choose to automatically or manually control the devices that are inside of the greenhouse. Systems placed inside the greenhouse are heating, irrigation, lighting and ventilation systems.
References
Nikolić P., Bugarski V., Matić D., Kamenko I. Kulić F. (2016). Overview of the possibilities of using different communication channels for data acquisition purposes. Journal on Processing and Energy in Agriculture, 20 (4), 186-188.
Dimitrijević A., Blažin S. Blažin D., Ponjičan O. (2015). Energy efficiency of the tomato open filed and greenhouse production system. Journal on Processing and Energy in Agriculture, 19 (3), 132-135.
Dimitrijević A., Šundek B., Blažin S., Blažin D. (2016). Production conditions for greenhouse vegetable production on small scale family farms. Journal on Processing and Energy in Agriculture, 20 (1), 21-24.
Karadžić B. (2005). Automatsko regulisanje mikroklime, radi povećanja energetske i ekološke efikasnosti objekta i opreme u poljoprivredi. Savremena poljoprivredna tehnika, 31 (4), 242-250.
Karadžić B., Babić M. (2005). Modelovanje i upravljanje mikroklimom u plasteniku. Časopis za procesnu tehniku i energetiku u poljoprivredi / PTEP, 8, 3-4, 80-83.
Sensirion, “Datasheet SHT3x-DIS,” SHT31 datasheet, Oct. 2015 [Revised Aug. 2016].
Vishay Semiconductors, “Ambient Light Sensor,” TEMT6000X01 datasheet, Aug. 2011 [Revised Jan. 2021].
DF ROBOT, “Capacitive Soil Moisture Sensor,” Capacitive Soil Moisture Sensor SKU:SEN0193 datasheet
Nordic Semiconductor, “Single chip 2.4 GHz Transceiver,” nRF24L01 datasheet, Mar. 2006.
Raspberry Pi (Trading) Ltd., “Raspberry Pi Model B,” Raspberry Pi Model B datasheet, Jun 2019.
Arduino, “Arduino Nano V3,” Arduino Nano datasheet, jun. 2008.
