Arduino-Based Automated Plant Irrigation
Suleiman, Abdulsamad (2025)
2025
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2025060219352
https://urn.fi/URN:NBN:fi:amk-2025060219352
Tiivistelmä
The automatic plant watering system using Arduino is one of the most widely utilized and effective automation solutions available today, offering significant assistance by minimizing or entirely replacing the manual effort involved in plant care. This system leverages sensor technology to monitor soil moisture levels and activates irrigation when required. The goal of this work is to demonstrate how anyone can easily create an affordable and efficient automatic plant watering system in just a few hours by connecting various electronic components and necessary materials.
Through our experiment, we assembled all the essential components to verify whether the system functions correctly. While this design is particularly suitable for home use to address everyday watering challenges, it also presents a broad range of possibilities for long-term solutions to common gardening issues. This system proves especially beneficial for maintaining consistent watering for vegetables and other specific plants, enabling gardeners worldwide to cultivate crops with ease. Furthermore, solar power is utilized to ensure sustainability.
Additionally, the system can be expanded to incorporate multiple sensors, providing greater flexibility. Regardless of the materials and setup used, this type of automated system offers a highly valuable solution to many of the water-related challenges faced by individuals and gardeners today.
Through our experiment, we assembled all the essential components to verify whether the system functions correctly. While this design is particularly suitable for home use to address everyday watering challenges, it also presents a broad range of possibilities for long-term solutions to common gardening issues. This system proves especially beneficial for maintaining consistent watering for vegetables and other specific plants, enabling gardeners worldwide to cultivate crops with ease. Furthermore, solar power is utilized to ensure sustainability.
Additionally, the system can be expanded to incorporate multiple sensors, providing greater flexibility. Regardless of the materials and setup used, this type of automated system offers a highly valuable solution to many of the water-related challenges faced by individuals and gardeners today.