Abstract
This paper proposes a novel and economical home automation enabled by the Internet of Things (HAS). Nowadays, life has become so quick and enthusiastic about the embedded gadgets that it's become part and parcel of the individual and community as a whole, particularly in urban areas. Thus, IoT-based systems are associated in nursing extension of the activities that have improved the life form of the society by connecting the gadgets over the network. This can be earned thanks to the provision of powerful process devices and wireless sensing element property of the gadgets that are operated with ease because of their easy management and price effectiveness. Numerous technologies and protocols are used as a communication media with portable highly efficient embedded devices for controlling any style of appliances. A Node MCU is chosen for this design because of built-in WLAN facility and no add on extra shield further is to be connected for dominant analog appliances. A prototype model was designed highlighting the garage door and two-floor building model, wherein the electric bulb led type was installed in the floor rooms. A plastic coated thin material was used to demonstrate the working of opening and closing garage door. The system complexity was reduced by integrating the entire circuitry on a single-sided PCB, designed and fabricated in the research and development MSME incubation center under IIMT College of Engineering, Greater Noida, Uttar Pradesh, India. The prototype model was tested and validated with final working of the project tested with an improved efficient, high speed in comparison to the existing conventional system.
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Rathee, N., Rathee, V., Kumar, S., Das, A., Ivchuk, Y., Liudmyla, C. (2022). An Efficient IoT-Based Novel Design for Home Automation Using Node MCU Controller. In: Shakya, S., Ntalianis, K., Kamel, K.A. (eds) Mobile Computing and Sustainable Informatics. Lecture Notes on Data Engineering and Communications Technologies, vol 126. Springer, Singapore. https://doi.org/10.1007/978-981-19-2069-1_17
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DOI: https://doi.org/10.1007/978-981-19-2069-1_17
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