In present days, energy consumption is becoming a major
concern for individuals, businesses, and agriculture. Inefficient energy
consumption contributes to environmental degradation by raising electricity
bills and increasing reliance on non-renewable resources. This approach gives a
design and implements an IoT-based Smart Energy Management System for real-time
monitoring, predictive automation, and cloud-based control of electrical
appliances in smart homes. The system was created using various sensors to
track voltage, current, temperature, occupancy and light. Real-time automation
was obtained using relay modules and a servo motor for curtain automation.
Firebase Realtime Database was utilised for cloud storage, control, and
predictive data retrieval. Energy consumption was calculated in kilowatt-hours
based on voltage and current values. Manual, schedule-based, and predictive
override were implemented. The system effectively monitored energy consumption
and reduced power levels by 18%. It automatically shut down equipment when idle
or in accordance with pre-scheduled occupancy estimates. The system responded
in real-time to sensor inputs and user-scheduled events. Power telemetry and
daily logging were always synchronised with Firebase to enable smooth cloud
updates and user interaction. The proposed system offers a safe, scalable, and
intelligent home energy management system for the future through the use of IoT
sensors and cloud technology to enable automation, predictive control, safety,
and future-proof compatibility with new smart grid infrastructure for improved
sustainability and operational efficiency.
Author(s) Details
Hanamant R Jakaraddi
Department of MCA, Acharya Institute of Technology, Bangalore-560107,
India.
Amarnath C K
Department of MCA, Acharya Institute of Technology, Bangalore-560107,
India.
Ranjana K K
Department of Computer Applications, Acharya Institute of Graduate Studies,
Bangalore-560107, India.
Please see the book here :- https://doi.org/10.9734/bpi/mono/978-93-88417-94-5/CH2
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