Abstract
For people suffering from quadriplegia, paraplegia, or other types of physical disabilities, the quality of life diminishes as the day progress into months. This research proposes a cumulative and effective solution for monitoring and controlling home appliances using IOT Stack Level 1. This research can communicate with home appliances using Bluetooth through low power consumption protocols with minimal costs and storage issues. This Home automation approach is controlled by an android application developed by MIT App Inventor, which communicates with Bluetooth signals and conveys the same to the relay board. An extra facet of this research implementation is the socket range. The socket can control all appliances ranging from the air conditioner, washing machine, phone charger, and coffee maker, to name a few. The Bluetooth communicates with the corresponding relays using the application made on the phone. Here, the user can move and control the appliances directly using their voice or clicking a button. It allows the user to communicate and manage any device using the relay board. So we suggested a climbable and price-efficient Home Automation System for the physically challenged.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Ismaeel AG, Kamal MQ (2017) Worldwide auto-Mobi: Arduino IoT home automation system for IR devices. In: International conference on current research in computer science and information technology (ICCIT), IEEE Xplor, Iraq, pp 52–57, April 2017
Chen S-C, Wu C-M et al (2017) Smart home control for the people with severe disabilities. In: International conference on applied system innovation (ICASI), IEEE Xplore, pp. 503–506. https://doi.org/10.1109/ICASI.2017.7988465
Wahab MHA (2016) IoT-based home automation system for people with disabilities. In: 5th international conference on reliability, Infocom technologies and optimisation (ICRITO), IEEE Xplore, India. https://doi.org/10.1109/ICRITO.2016.7784923
Gunge VS, Yalagi PS (2016) Smart home automation: a literature review. In: National seminar on recent trends in data mining-RTDM 2016
Jain S, Vaibhav A, Goyal L (2014) Raspberry Pi-based interactive home automation system through E-mail. In: 2014 International conference on optimization, reliability, and information technology (ICROIT). IEEE
Lamine H, Abid H (2014) Remote control of domestic equipment from an Android application based on Raspberry Pi card. In: IEEE transaction 15th international conference on sciences and techniques of automatic control and computer engineering – STA 2014, Hammamet, Tunisia, 21–23 December 2014
Chowdhury, MdN, Nooman MdN, Sarker S (2013) Access control of door and home security by Raspberry Pi through internet. Int J Sci Eng Res 4
Zhang W, Qu B (2013) Security architecture of the Internet of Things oriented to perceptual layer. Int J Comput 2:2–13
Kelly SDT, Suryadevara NK, Mukhopadhyay SC (2013) Towards the implementation of IoT for environmental condition monitoring in homes. Sensors J 13(10):3846–3853
Assaf MH et al (2012) Sensor-based home automation and security system. In: 2012 IEEE international instrumentation and measurement technology conference (I2MTC). IEEE
Al-Kuwari A-M, Ortega-Sanchez C, Sharif A, Potdar V (2011) User-Friendly Smart Home Infrastructure: BeeHouse. In: IEEE 5th international conference on digital ecosystems and technologies, 31 May–3 June 2011, Daejeon, Korea
Atzori L, Iera A, Morabito G (2010) The internet of things: a survey. Comput Netw 54(15):2787–2805
Han J, Yun J, Jang J, Park K-R (2010) Userfriendly home automation based on the 3D virtual world. IEEE Trans Consum Electron 56(3), 1843–1847
Al-Ali A-R, Al-Rousan M (2004) Java-based home automation system. IEEE Trans Consum Electron 50(2):498–504
Teja R (2021) Layout of Arduino Nano Board, 12 January 2021. https://www.electronicshub.org/arduino-nano-pinout/
https://www.roboelements.com/product/hc05-bluetooth-transceiver-module-with-ttl-output/. Layout of Bluetooth Board, 12 February 2021. https://www.roboelements.com/product/hc05-Bluetooth-transceiver-module-with-ttl-output/
Hamdan YB (2021) Smart home environment future challenges and issues-a survey. J Electron 3(01):239–246
Vinothkanna R (2020) Design and analysis of motor control system for wireless automation. J Electron 2(03):162–167
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2023 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Shah, D. (2023). Implementation of IoT Enabled Home Automation System. In: Joby, P.P., Balas, V.E., Palanisamy, R. (eds) IoT Based Control Networks and Intelligent Systems. Lecture Notes in Networks and Systems, vol 528. Springer, Singapore. https://doi.org/10.1007/978-981-19-5845-8_18
Download citation
DOI: https://doi.org/10.1007/978-981-19-5845-8_18
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-19-5844-1
Online ISBN: 978-981-19-5845-8
eBook Packages: EngineeringEngineering (R0)