Analyzing the efficiency of Arduino UNO microcontroller in monitoring and controlling the microclimatic parameters of greenhouse

At present greenhouse farming has become more popular in contrast to traditional farming because of its adjustment capability of the environmental parameters such as temperature, humidity, light intensity, and soil moisture according to the requirements of the crops. Continuous monitoring and contro...

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Vydáno v:Journal of agrometeorology Ročník 26; číslo 1; s. 51 - 55
Hlavní autoři: JOLLY, F. A., UDDIN, G.T., M. S. ALIM, R. KUMAR, A. DUTTA, M.M.K. REYA, N. TASNIM
Médium: Journal Article
Jazyk:angličtina
Vydáno: Anand Association of Agrometeorologist 01.03.2024
Association of agrometeorologists
Témata:
Agricultural production
Agricultural research
Agriculture
Batteries
Climate change
Controllers
Cooling
Crops
Data collection
Energy sources
Environmental factors
Environmental monitoring
Environmental parameters
Farm buildings
Farmers
Farming
Greenhouse
Greenhouses
Humidity
Hygrometers
Irrigation
Labour
Light intensity
Luminous intensity
Microclimate
Microcontrollers
Moisture content
Monitoring
Monitoring systems
Parameters
Power supply
Programming languages
Radiation
Rechargeable batteries
Sensor
Sensors
Small farms
Small-scale farming
Smart system
Soil moisture
Soil temperature
Solar energy
Solar power
Temperature control
Temperature requirements
Traditional farming
Bangladesh
ISSN:0972-1665, 2583-2980
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Shrnutí:At present greenhouse farming has become more popular in contrast to traditional farming because of its adjustment capability of the environmental parameters such as temperature, humidity, light intensity, and soil moisture according to the requirements of the crops. Continuous monitoring and controlling facilities of the greenhouse system allow the farmers a good maintenance system with good quality and high yield of the crops. In this paper, an Arduino microcontroller was used in a greenhouse system for an automatic monitoring system for cultivation incorporating various sensors such as a temperature-humidity sensor, and soil moisture sensor to collect parameters for monitoring the environment of the greenhouse. The collected data were used to control the temperature using cooling fans which facilitated the greenhouse controlling the environment. For storage and processing the data the controller code was generated in the Arduino programming language, and finally inserted into the Arduino UNO R3 microcontroller. A solar power system with a rechargeable battery was installed as a source of energy to ensure continuous power supply to the greenhouse system. Implementation of a greenhouse with a microclimatic parameter monitoring and controlling system will result in mitigating land and labor requirement problems for small-scale farmers, and gardeners as well as supplying suitable data for agricultural researchers.
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ISSN:0972-1665
2583-2980
DOI:10.54386/jam.v26i1.2520