Authors :
Yedhu Gopan
Volume/Issue :
Volume 9 - 2024, Issue 1 - January
Google Scholar :
http://tinyurl.com/mn3zejyh
Scribd :
http://tinyurl.com/y7kzr633
DOI :
https://doi.org/10.5281/zenodo.10622987
Abstract :
In modern agriculture, technology plays a
crucial role in optimizing resource utilization and
improving crop yield. This research introduces an
innovative Automatic Plant Irriga- tion System that
relies on soil moisture, integrating an extensive array of
sensors for moisture, temperature, and humidity. These
sensors are connected to an Arduino microcontroller,
allowing continuous real-time monitoring of soil
conditions. Utilizing Wi- Fi connectivity, the collected
data is efficiently transmitted to a cloud-based
platform, enabling seamless remote access and control.
Farmers can easily access essential information on soil
moisture levels and environmental parameters through a
user- friendly mobile application or web interface.
Furthermore, the system incorporates actuators to
regulate water flow, ensuring precise irrigation
schedules tailored to the specific needs of crops. The
primary goal of this project is to revolutionize
traditional farming practices by implementing
technology-driven solutions that enhance water
efficiency, minimize resource wastage, and optimize
agricultural output.Through the integration of IoT
technology, the Automatic Plant Irrigation System
represents a forward-thinking approach to sustainable
and precision agricul- ture. The incorporation of IoT
technology is envisioned to provide a transformative
impact, contributing to the advancement of agriculture
through improved water management and enhanced
precision in irrigation practices.
Keywords :
IoT (Internet of Things), Smart Irrigation System, Agriculture Automation, Soil Moisture Sensors,Wireless Connectivity, Cloud-based Data Transmission, Arduino Microcon- Troller.
In modern agriculture, technology plays a
crucial role in optimizing resource utilization and
improving crop yield. This research introduces an
innovative Automatic Plant Irriga- tion System that
relies on soil moisture, integrating an extensive array of
sensors for moisture, temperature, and humidity. These
sensors are connected to an Arduino microcontroller,
allowing continuous real-time monitoring of soil
conditions. Utilizing Wi- Fi connectivity, the collected
data is efficiently transmitted to a cloud-based
platform, enabling seamless remote access and control.
Farmers can easily access essential information on soil
moisture levels and environmental parameters through a
user- friendly mobile application or web interface.
Furthermore, the system incorporates actuators to
regulate water flow, ensuring precise irrigation
schedules tailored to the specific needs of crops. The
primary goal of this project is to revolutionize
traditional farming practices by implementing
technology-driven solutions that enhance water
efficiency, minimize resource wastage, and optimize
agricultural output.Through the integration of IoT
technology, the Automatic Plant Irrigation System
represents a forward-thinking approach to sustainable
and precision agricul- ture. The incorporation of IoT
technology is envisioned to provide a transformative
impact, contributing to the advancement of agriculture
through improved water management and enhanced
precision in irrigation practices.
Keywords :
IoT (Internet of Things), Smart Irrigation System, Agriculture Automation, Soil Moisture Sensors,Wireless Connectivity, Cloud-based Data Transmission, Arduino Microcon- Troller.
