Authors :
Yalagala Sathwik Patel; Tekumalla Shiva Sai; Ramadasu Sumanth; Dr. A.N.Satyanarayana
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/hh4efvyu
Scribd :
https://tinyurl.com/4nkfz557
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR1734
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
sustainable agriculture and landscaping. This project
introduces a novel solution, combining solar power and
GSM technology to create an intelligent irrigation
system. Integrated GSM connectivity enables remote
monitoring and control, allowing users to adjust
irrigation schedules and settings from anywhere,
enhancing convenience and flexibility. By leveraging
data analytics and sensor feedback, the system optimizes
water usage, ensuring precise delivery based on plant
needs and environmental conditions. This approach not
only conserves water but also promotes healthier plant
growth and higher yields. The integration of GSM
technology ensures real-time communication and alerts,
allowing users to respond promptly to changing
conditions and unforeseen events. Through case studies
and performance evaluations, the presentation will
demonstrate the system's reliability, durability, and cost-
effectiveness, underscoring its viability for widespread
adoption. Attendees will gain insights into how solar-
powered GSM irrigation can revolutionize water
management practices, empower farmers and gardeners,
and contribute to building resilient, sustainable
ecosystems in a rapidly changing world.
Keywords :
Soil Moisture Sensors; GSM Module; ESP 32; GPS Module; Solar Power; Voltage Sensors.
Efficient water management is crucial for
sustainable agriculture and landscaping. This project
introduces a novel solution, combining solar power and
GSM technology to create an intelligent irrigation
system. Integrated GSM connectivity enables remote
monitoring and control, allowing users to adjust
irrigation schedules and settings from anywhere,
enhancing convenience and flexibility. By leveraging
data analytics and sensor feedback, the system optimizes
water usage, ensuring precise delivery based on plant
needs and environmental conditions. This approach not
only conserves water but also promotes healthier plant
growth and higher yields. The integration of GSM
technology ensures real-time communication and alerts,
allowing users to respond promptly to changing
conditions and unforeseen events. Through case studies
and performance evaluations, the presentation will
demonstrate the system's reliability, durability, and cost-
effectiveness, underscoring its viability for widespread
adoption. Attendees will gain insights into how solar-
powered GSM irrigation can revolutionize water
management practices, empower farmers and gardeners,
and contribute to building resilient, sustainable
ecosystems in a rapidly changing world.
Keywords :
Soil Moisture Sensors; GSM Module; ESP 32; GPS Module; Solar Power; Voltage Sensors.
