JCC  Vol.3 No.5 , May 2015
Role of Internet of Things in the Smart Grid Technology
Abstract: The Internet of Things (IoT) has recently emerged as enabling technology for the smart gird, smart health, smart transportation, and smart environment as well as for smart cities. The major smart grid devices are smart home appliances, distributed renewable energy resources and power substations. The seven domains existing smart grid conceptual model was developed without the IoT concept in mind. As the smart grid evolved, many attempts started to introduce the IoT as enabling technology to the grid. Each device in the grid can be considered as an object. Utilizing the concept of IoT, each device can have a unique IP address that can upload its status and download control commands via the Internet. This paper proposes a conceptual model for the smart grid within the Internet of Things context. The proposed model is based on IPV6 as the backbone of the smart grid communications layer.
Cite this paper: Al-Ali, A. and Aburukba, R. (2015) Role of Internet of Things in the Smart Grid Technology. Journal of Computer and Communications, 3, 229-233. doi: 10.4236/jcc.2015.35029.

[1]   Anvari-Moghaddam, A., Monsef, H. and Rahimi-Kian, A. (2015) Optimal Smart Home Energy Management Consi-dering Energy Saving and a Comfortable Lifestyle. IEEE Transactions on Smart Grid, 6, 324-332.

[2]   Wu, Y., Lau, V.K.N., Tsang, D.H.K., Qian, L.P. and Meng, L. (2013) Optimal Energy Scheduling for Residential Smart Grid with Centralized Renewable Energy Source. IEEE Systems Journal, 8, 562-576.

[3]   Han, J., Choi, C., Park, W., Lee, I. and Kim, S. (2014) Smart Home Energy Management System Including Renewable Energy Based on ZigBee. IEEE International Conference on Consumer Electronics (ICCE), Las Vegas, 10-13 January 2014, 544-545.

[4]   Jaradat, M., Jarrah, M., Jararweh, Y., Al-Ayyoub, M. and Bousselham, A. (2014) Integration of Renewable Energy in Demand-Side Management for Homeappliances. International Renewable and Sustainable Energy Conference (IRSEC), Ouarzazate, October 2014, 571-576.

[5]   Missaoui, R., Joumaa, H., Ploix, S. and Bacha, S. (2014) Managing Energy Smart Homes According to Energy Prices: Analysis of a Building Energy Management System. Original Research Article Energy and Buildings, 71, 155-167.

[6]   Fitzpatrick, G.J. and Wollman, D.A. (2010) NIST Interoperability Framework and Action Plans. IEEE Power and Energy Society General Meeting, Minneapolis, 25-29 July 2010, 1-4.

[7]   Garner, G. (2010) Designing Last Mile Communications Infrastruc-tures for Intelligent Utility Networks (Smart Grids). IBM Australia Limited.

[8]   Al-Omar, B., Al-Ali, A.R., Ahmed, R. and Landolsi, T. (2012) Role of Information and Communication Technologies in the Smart Grid. Journal of Emerging Trends in Computing and Information Sciences, 3, 707-716.

[9]   Gungor, V.C., Sahin, D., Kocak, T., Ergut, S., Buccella, C., Cecati, C. and Hancke, G.P. (2013) A Survey on Smart Grid Potential Applications and Communication Requirements. IEEE Transactions on Industrial Informatics, 9, 28-42.

[10]   Huang, Z.C. and Yuan, F. (2015) Implementation of 6LoWPAN and Its Application in Smart Lighting. Journal of Computer and Communications, 3, 80-85.

[11]   Gonnot, T. and Saniie, J. (2014) User Defined Interactions between Devices on a 6LoWPAN Network for Home Automation. IEEE International of Technology Management Conference (ITMC), Chicago, 12-15 June 2014, 1-4.