Authors :
Dhende Prachi Mahadeo; Ghodekar Shivani Sanjay; Rajanikant Palwe
Volume/Issue :
Volume 9 - 2024, Issue 3 - March
Google Scholar :
https://tinyurl.com/jdemzzfb
Scribd :
https://tinyurl.com/99sp3kx9
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24MAR1519
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
Efficient water management is crucial for
sustaining healthy plant growth, especially in
environmentsprone to drought or excessive moisture. This
paper presents a novel plant watering system designed to
optimize water usage while ensuring adequate hydration
for plants. The system incorporates sensors to measure
soil moisture levelsand environmental conditions, such as
temperature and humidity, enabling real-time
monitoring and responsive watering. Utilizing a
microcontroller-based control unit, the system
autonomously regulates watering intervals and
durations based on preset thresholds and plant specific
requirements. By employing drip irrigation technology,
water is delivered directly to the root zone, minimizing
waste and promoting efficient absorption. Experimental
results demonstrate the system's effectiveness in
maintaining optimal soil moisture levels, fostering plant
health, and conserving water resources. This innovative
approach offers a sustainable solution for automated
plant care, suitable for both indoor and outdoor
cultivation environments.
Keywords :
Android Application, ESP8266 Module, Blynk App, Remote Monitoring.
Efficient water management is crucial for
sustaining healthy plant growth, especially in
environmentsprone to drought or excessive moisture. This
paper presents a novel plant watering system designed to
optimize water usage while ensuring adequate hydration
for plants. The system incorporates sensors to measure
soil moisture levelsand environmental conditions, such as
temperature and humidity, enabling real-time
monitoring and responsive watering. Utilizing a
microcontroller-based control unit, the system
autonomously regulates watering intervals and
durations based on preset thresholds and plant specific
requirements. By employing drip irrigation technology,
water is delivered directly to the root zone, minimizing
waste and promoting efficient absorption. Experimental
results demonstrate the system's effectiveness in
maintaining optimal soil moisture levels, fostering plant
health, and conserving water resources. This innovative
approach offers a sustainable solution for automated
plant care, suitable for both indoor and outdoor
cultivation environments.
Keywords :
Android Application, ESP8266 Module, Blynk App, Remote Monitoring.
