Affiliation:
1. Catholic University of Pusan, South Korea
Abstract
In this chapter, a design that allows testing of the performances of various models was developed with OPNET for the simulations in the PLC-base data link layer. As the model proposed earlier, the design includes a smart home and a Smart Grid environment where a comparison between Zigbee and WiMax-based models can be performed. The Smart Grid Test Bed has been implemented using OPNET and Power Line Communication is proposed in this book. It is being designed to allow Test Bed experiments in four layers among seven OSI layers. This chapter is organized as follows: the physical layer and datalink layer for Smart Grid Test Bed in Section 1; the transport layer for Smart Grid Test Bed in Section 2; and finally, application layer for Smart Grid Test Bed in Section 3.
Reference14 articles.
1. Bauer, M. (2009). Packet-oriented communication protocols for smart grid services over low-speed PLC. Power Line Communications and Its Applications, 2009. ISPLC 2009. IEEE International Symposium on IEEE.
2. Automation of distribution grids with IEC 61850: A first approach using broadband power line communication.;DDella Giustina;IEEE Transactions on Instrumentation and Measurement,2013
3. Huh, J. H., Je, S. M., & Seo, K. (2016). Communications-based technology for smart grid test bed using OPNET simulations. Information Science and Applications (ICISA), 227-233.
4. A Study of Power Line Communication-based Smart Outlet System Expandable at Home.;J. H.Huh;Journal of Korea Multimedia Society,2016
5. Advanced metering infrastructure design and test bed experiment using intelligent agents: Focusing on the PLC network base technology for Smart Grid system.;J. H.Huh;The Journal of Supercomputing,2016
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