KnE Social Sciences

ISSN: 2518-668X

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Internet of Things (IoT): BLYNK Framework for Smart Home

Published date: Mar 25 2019

Journal Title: KnE Social Sciences

Issue title: 3rd UNJ International Conference on Technical and Vocational Education and Training 2018 (3rd ICTVET 2018)

Pages: 579–586

DOI: 10.18502/kss.v3i12.4128

Authors:
Abstract:

This paper discusses the design to control and monitor devices at home via a smartphone. The purpose of this study is to make control and monitoring of electrical devices with the concept of IoT using Raspberry pi and NodeMCU based on the Blynk framework. The method used in this study is to build a prototype consisting of sensors, actuators, Raspberry pi, NodeMCU, and Smartphones. Actuators and Sensors are used to move device and the sensor is used to detect conditions. Raspberry pi is used as a server and as a bridge connected to the internet. The NodeMcu microcontroller is used as a link between equipment and sensors at home with the Raspberry pi. NodeMcu reads sensor data and sends it to the server. The server responds to requests for smartphones that have been installed by the Blynk framework. This system is designed to have an automatic mode when the homeowner is offline, and also has all the system log data.

 

 

Keywords: IoT, Smart Home, Blynk

References:

[1] Satpathy, L. Smart Housing: Technology to Aid Aging in Place. New Opportunities and Challenges. Master’s Thesis, Mississippi State University, Starkville, MS, USA, 2006.


[2] M. Chan, D. Esteve, C. Escriba and E. Campo, —A review of smart homes—Present state and future challenges, Computer Methods and Programs in Biomedicine, vol. 91, no. 1, pp. 55-81, Jul 2008.


[3] M. G. Golzar, H.Tajozzakerin, —A New Intelligent Remote Control System for Home Automation and Reduce Energy Consumption, 2010 Fourth Asia International Conference on Mathematical/Analytical Modelling and Computer Simulation, pp.174- 180, 2010.


[4] A.E.Nikolaidis, S.S.Papastefanos, G.I.Stassinopoulos,M.-P.D rakos, and G.A.Doumenis, —Automating remote configuration mechanisms for home devices, IEEE Trans. on Consumer Electronics,vol.52,no. 2, pp. 407-413, May. 2006.


[5] A. Kamilaris, V. Trifa, and A. Pitsillides, —Homeweb: An application framework for web- based smart homes, 2011 18th International Conference in Telecommunications (ICT), pp. 134 –139, May 2011.


[6] K. Bing, L. Fu, Y. Zhuo, and L. Yanlei, —Design of an internet of things-based smart home system„ 2011 2nd International Conference in Intelligent Control and Information Processing (ICICIP), vol. 2, pp. 921 –924, July 2011.


[7] M. Vega-Barbas, D. Casado-Mansilla, M. Valero, D. Lopez-de Ipina, J. Bravo, and F. Florez, —Smart spaces and smart objects interoperability architecture (s3oia), 2012 Sixth International Conference in Innovative Mobile and Internet Services in Ubiquitous Computing (IMIS), pp. 725 –730, July 2012.


[8] G. Chong, L. Zhihao, and Y. Yifeng, —The research and implement of smart home system based on internet of things, 2011 International Conference in Electronics, Communications and Control (ICECC), pp. 2944 –2947, sept. 2011.


[9] Southwest Center for Microsystems Education, Introduction to Transducers, Sensors, and Actuators, University of New Mexico, 2011


[10] Dinkar R Patnaik Patnaikuni, A Comparative Study of Arduino, Raspberry Pi and ESP8266 as IoT Development Board, International Journal of Advanced Research in Computer Science, Volume 8, No. 5, pp. 2350-2352, May-June 2017.

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