International Science Index


10007104

Smart Grid Communication Architecture Modeling for Heterogeneous Network Based Advanced Metering Infrastructure

Abstract:A smart grid is an emerging technology in the power delivery system which provides an intelligent, self-recovery and homeostatic grid in delivering power to the users. Smart grid communication network provides transmission capacity for information transformation within the connected nodes in the network, in favor of functional and operational needs. In the electric grids communication network delay is based on choosing the appropriate technology and the types of devices enforced. In distinction, the combination of IEEE 802.16 based WiMAX and IEEE 802.11 based WiFi technologies provides improved coverage and gives low delay performances to meet the smart grid needs. By incorporating this method in Wide Area Monitoring System (WAMS) and Advanced Metering Infrastructure (AMI) the performance of the smart grid will be considerably improved. This work deals with the implementation of WiMAX-WLAN integrated network architecture for WAMS and AMI in the smart grid.
References:
[1] Gomez-Cuba, Felipe, Rafael Asorey-Cacheda, and Francisco J. Gonzalez-Castano, “WiMAX for Smart Grid Last-Mile Communications: TOS Traffic Mapping and Performance Assessment,” IEEE Transaction on Innovative Smart Grid Technologies, (ISGT Europe),3rd IEEE PES International Conference and Exhibition ,vol. 4, no. 3, pp. 1-8,14-17,Oct 2013.
[2] Shao, Sujie, Xuesong Qiu, and Luoming Meng. "Smart Grid Distribution and Consumption Communication Network Architecture." Journal of Communications 8.8 (2013): 480-489.
[3] Aguirre, J. F., and F. Magnago. "Viability of wimax for smart grid distribution network." European International Journal of Science and Technology 2.3 (2013): 181-196.
[4] Heile and Bob, “Smart Grids for Green Communications,” IEEE Transactions on Wireless Communications, vol. 17, no. 3, pp. 4-6, June2012.
[5] Framework, N.I.S.T., 2010. “Roadmap for smart grid interoperability standards. National Institute of Standards and Technology".
[6] Jeon, Yong-Hee, “QOS Requirements for the Smart Grid Communications System,” International Journal of Computer Science and Network Security, no. 3, pp. 86-94, September 2012.
[7] Gungor, Vehb, Dilan Sahin and Taskin Kocak, “Smart Grid Technologies: Communication Technologies and Standards,” IEEE transactions on Industrial informatics, vol. 7, no. 4, pp.529-539, April 2013.
[8] Jian Li, Yifeng He, Yun Tie, Ling Guan, “Optimal Resource Allocation for LTE Uplink Scheduling in Smart Grid Communications,” International Journal of Wireless Communications and Mobile Computing ,vol. 1, no. 4, pp. 113- 118, March 2013.
[9] V. Erceg, K. V. S. Hari, et al., “Channel models for fixed wireless applications,” tech. rep., IEEE 802.16 Broadband Wireless Access Working Group, January 2001.
[10] H.W. Badri, S. Ghnimi and A. Gharsallah, “Electromagnetic propagation environment effects on the WiMAX communication system”. In Mediterranean Microwave Symposium (MMS), 2011 pp. 130-133.
[11] H.T. Ansari, S. Prem Kumar, and V. Saminadan, “Heterogeneous network modeling for smart grid technology,” International Conference on communication and Signal Processing, April, 2016, pp. 2336-2339.