Multifunctional support system for household

Sameer Khan; Gopal Krishan

doi:10.55878/SES2025-5-1-11

editorSES@esciencesspectrum.com

Spectrum of Emerging Sciences

ISSN: 2583-2603 | Indexed In: Google Scholar, Researchgate | Issues per year: Bi-annually

ISSN:2583-2603

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Multifunctional support system for household

Author(s): Sameer Khan, Gopal Krishan

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Department of Electronics and Communication Engineering, IIMT College of Engineering, Greater Noida, UP, India

Published In: Volume - 5, Issue - 1, Year - 2025

DOI: 10.55878/SES2025-5-1-11

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ABSTRACT:
The Multifunctional Household Support System represents the innovative direction with compact arrangements intended to ensure an automated mechanism in the domestic arena, make homes safer places to live. The arrangement provides a conglomeration of features through lights, fans, kitchen aiding support, the indication of natural gas leakage service facilities. Here, the different segments are activated using a micro controller. It has an LED light to illuminate in case of power failure, a fan for ventilation, and a motor-driven vegetable cutting tool for effective kitchen operations. Safety is assured with an LPG gas detector that detects leaks and sounds a buzzer and LED alert when danger is imminent. The rechargeable battery will ensure uninterrupted operation, even when there is a power outage. Designed to be user-friendly and energy-efficient, the system plays a contributory role in smart household automation. This project demonstrates the ability to integrate into a single compact system multiple household utilities-this raises the convenience, efficiency, and safety of modern households.

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Cite this article:
Sameer Khan, Gopal Krishan (2025), support system for household, Spectrum of Emerging Sciences, 5 (1) 55-58, 10.55878/SES2025-5-1-11DOI: https://doi.org/10.55878/SES2025-5-1-11

Tiwari P, Gupta R. Design and implementation of gas leakage detector using Arduino. Int J Eng Res Technol (IJERT). 2015;4(7):157-60.
Hussain I, Hussain S, Javed A. Real-time LPG leakage monitoring and alerting system. J Basic Appl Res Int. 2017;20(1):55-60.
Huo Y, Sun L, Zhang Y. Indoor air quality and energy use in residential kitchens: a review of ventilation strategies. Energy Build. 2014;77:350-61.
Zhou Y, Lian Z, Hou X. Energy-efficient ventilation in residential kitchens: a case study. Build Environ. 2016;105:153-62.
Ching LK, Ho YT. LED lighting in residential kitchens: efficiency and cost analysis. J Light Vis Environ. 2013;37(1):45-51.
Cahill M, Higgins J, Cox J. Task lighting in kitchens: impact on user performance and ergonomics. J Interior Des. 2018;43(3):130-45.
Park H, Lee K. Ergonomic design of kitchen tools for improved usability and safety. Ergonomics Des. 2012;20(4):15-20.
Haejung J, Jung S. Smart kitchen tools for enhanced food preparation efficiency: a review. Int J Culinary Arts Food Sci. 2016;5(2):90-5.
Lazarus M, Burke C. Impact of music and audio entertainment on productivity in household tasks. J Consum Res. 2019;45(2):289-303.
Singh R, Agarwal P. Smart kitchen appliances: a review of trends and consumer preferences. Int J Smart Home. 2020;14(3):121-32.