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PUBLICATIONS

Hierarchical Wireless Network Design for Synchrophasor Communication in Distributed Generation Grid

Published

Author(s)

Hamid Gharavi

Abstract

There has been a growing interest in the deployment of Phasor Measurement Units (PMUs) in a Distributed Generation (DG) grid system. The main obstacle is the lack of a communication network infrastructure that can support phasor measurements for distribution area monitoring as well as providing sensing capabilities for protection against undesirable grid dynamics. In the absence of such a network, the most cost-effective solution would be to consider a wireless network to support centralized control for situational awareness in a DG environment. Therefore, the main objective in this paper is to design and implement a synchrophasor network testbed using Wireless LAN (WLAN) technology. Based on a hierarchical network architecture, we propose an efficient method to reduce the synchrophasor data bandwidth, as well as provide capabilities for control and management at each hierarchical level. This testbed is then used to evaluate different network configurations under various test conditions.
Proceedings Title
IEEE International Conference on Communications
Issue
ICC’015
Conference Dates
June 7-13, 2015
Conference Location
London
Pub Type
Conferences

Keywords

Smart Grid, syncrophasors, micro PMU, hierarchical networks, distributed generation grid, wireless mesh networks, Emulab, CPS, WLAN, power factor
Wireless (RF), Energy, Information technology and Networking

Citation

Gharavi, H. (2015), Hierarchical Wireless Network Design for Synchrophasor Communication in Distributed Generation Grid, IEEE International Conference on Communications , London, -1 (Accessed October 10, 2025)

Issues

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Created June 8, 2015, Updated January 27, 2020
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