ABSTRACT
The internet of things has many applications; one of those is Smart Power Monitoring and Control Systems. Energy efficient devices can be designed in IoT, which can reduce both, the power consumption and the human effort required to do so. This work has been designed in to implement a smart charging system that automatically controls its behaviour using the webserver and the phone which is being charged. The device being used is a ESP8266, the Webserver which will be stored on the ESP8266 module acts as the IoT platform. As the webserver is platform independent, it can be used on any device, like mobiles and laptops, these devices relay commands, and in turn the web server toggles the charger through the ESP8266 module. This project helps in automatic monitoring of the device and sends notifications to the phone, which is necessary if we want to reduce both the energy and time needed to maintain said devices. This system would be capable of turning on and off only when the device is connected and charge only when needed, and can be further improved to monitor other appliances. There are various modules available, which when paired up with the charging circuit will turn the charger into an IoT based device, like ESP8266, Particle Photon, and other Arduino based modules, but ESP8266 is the most cost effective and also has low power consumption.
- Yu Ping Zhang, Tao Liu, Zhong Xiao Yang, Yi Mou, Yu Hua Wei, Dong Chen. "Design of Remote Control Plug", IEEE International Conference Applied Superconductivity and Electromagnetic Devices,2015.Google Scholar
- Putta Sindhuja and M.S. Balamurugan, "Smart Power Monitoring and Control System through Internet of things using Cloud Data Storage", Indian Journal of Science and Technology,8(19), 76698, 2015.Google ScholarCross Ref
- Krupal Kachhia Patel1, Jignesh Patoliya and Hitesh Patel, "Low Cost Home Automation with ESP8266 and Lightweight protocol MQTT", Transactions on Engineering and Sciences, 3(6), 2015.Google Scholar
- M. Mazhar Rathore, Awais Ahmad, Anand Paul and Seungmin Rho, "Urban planning and building smart cities based on the Internet of Things using Big Data analytics", Computer Networks 101, 2016. Google ScholarDigital Library
- Mohammad Abdur Razzaque, Marija Milojevic-Jevric, Andrei Palade, and Siobhán Clarke "Middleware for Internet of Things: A Survey", IEEE internet of things journal, 3(1), 2016.Google Scholar
- Manar Jaradata, Moath Jarraha,c, Abdelkader Bousselhamb, Yaser Jararweha, Mahmoud Al-Ayyoub,"The Internet of Energy: Smart Sensor Networks and Big Data Management for Smart Grid", The Internationa l Workshop on Networking Algorithms and Technologies for IoT, 2015.Google Scholar
- Manan Mehta, "A breakthrough in wireless sensor networks and internet of things", International Journal of Electronics and Communication Engineering & Technology, 6(8), 2015.Google Scholar
- Vítor Monteiro, João C. Ferreira, João L. Afonso, "Smart Platform towards Batteries Analysis Based on Internet-of-Things", Conference on Electronics, Telecommunications and Computers, 2013.Google Scholar
- Jalpa Shaha, Biswajit Mishraa," Customized IoT enabled Wireless Sensing and Monitoring Platform for Smart Buildings", 3rd International Conference on Innovations in Automation and Mechatronics Engineering, ICIAME 2016.Google Scholar
- P. Fang, Y. F. Liu, and P. C. Sen, "A flicker-free single-stage offline LED driver with high power factor", IEEE Journal of Emerging and Selected Topics in Power Electronics, 3(3): 654--655, 2015.Google ScholarCross Ref
- M. Kim, and S. Choi, "A fully soft-switched single switch isolated DC-DC converter", IEEE Transactions on Power Electronics, 30(9), 2015.Google ScholarCross Ref
- S. Distefano, G. Merlino, and A. Puliafito., "A utility paradigm for IOT: The sensing cloud", Pervasive and Mobile Computing, vol. 20,2015 Google ScholarDigital Library
- Martinez, M. Monton, I. Vilajosana, and J. D. Prades, "The power of models: modeling power consumption for IoT devices", IEEE Sensors Journal, vol. 15, 2015.Google Scholar
- Sajid M. Sheikh, Herman A. Engelbrecht, and Riaan Wolhuter, "A Comparative Study on Improving Quality of Service in Networks Carrying Multi-Service Level Data over Resource-Limited Multi-Hop Wireless Networks", Journal of Communications Vol. 12, No. 10, 2017.Google Scholar
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