Abstract
Home automation is a crucial component of the Internet of things, sometimes known as Internet of things (IoT). For decades, home automation has been utilized to control basic household goods such as lighting and small appliances. The globe will be connected with a touch of a fingerprint or simple voice instructions, according to current technology. The existing system was not secure and safe because it did not have fire detection and notification system. And it was high cost and high power consumption. The well-known IoT home automation system is typically straightforward to implement in a real home, allowing for real-time monitoring of home conditions and control of home equipment. Several sensors and actuators were connected to the NodeMCU controller, and the updated temperature, humidity, motion, and gas data could be seen on laptops and PCs using the MQTT Dash mobile application and the Adafruit IO website. For security and safety concerns, users receive warnings on their mobile phones when there is an odd scenario via the IFTTT server. Household appliances are regularly controlled in a simple and effective manner using the MQTT/Adafruit IO GUI or voice commands with Google Assistant. The proposed system aims to expand the Home Automation system with additional sensors, actuators and instead of utilizing batteries, solar panels are used to power the control box, making the system safe, secure, energy-efficient, and environmentally beneficial.
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Abbreviations
- AC:
-
Alternating current
- COM Port:
-
Communication port
- DC:
-
Direct current
- GPRS:
-
General packet radio service
- GSM:
-
Global system for mobile communication
- GUI:
-
Graphical user interface
- HTTP:
-
Hypertext transfer protocol
- IDE:
-
Integrated development environment
- IoT:
-
Internet of things
- NodeMCU:
-
Node microcontroller unit
- ROM:
-
Read-only memory
- WiFi:
-
Wireless fidelity
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Acknowledgements
The authors would like to express their gratitude to the contributors of the GITHUB repository’s publicly accessible frameworks, libraries, and sketching datasets, which aided training, testing, and validation.
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Omarkhil, S., Shoba Bindu, C., Sudheer Kumar, E. (2022). IoT-Enabled Home Automation System. In: Bindhu, V., Tavares, J.M.R.S., Du, KL. (eds) Proceedings of Third International Conference on Communication, Computing and Electronics Systems . Lecture Notes in Electrical Engineering, vol 844. Springer, Singapore. https://doi.org/10.1007/978-981-16-8862-1_62
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