Enabling resilient microgrid through programmable network

Lingyu Ren; Yanyuan Qin; Bing Wang; Peng Zhang; Peter B. Luh; Ruofan Jin

doi:10.1109/TSG.2016.2589903

Enabling resilient microgrid through programmable network

Lingyu Ren
, Yanyuan Qin
, Bing Wang
, Peng Zhang
, Peter B. Luh
, Ruofan Jin

Electrical Engineering

University of Connecticut

Research output: Contribution to journal › Article › peer-review

68 Scopus citations

Abstract

In this paper, we integrate programmable networks in microgrid (MG) to provide flexible and easy-To-manage communication solutions, thus enabling resilient MG operations in face of various cyber and physical disturbances. Specifically, two contributions have been made: 1) establish a novel softwaredefined networking (SDN) based communication architecture that abstracts the network infrastructure from the upper-level applications to significantly expedite the development of MG applications and 2) create a hardware-in-The-loop cyber-physical platform for evaluating and validating the performance of the presented architecture, control techniques, and SDN-based functionalities. Test results have demonstrated that the new architecture can significantly enhance MG resilience, particularly for those that have high penetration of renewable energy sources.

Original language	English
Article number	7508456
Pages (from-to)	2826-2836
Number of pages	11
Journal	IEEE Transactions on Smart Grid
Volume	8
Issue number	6
DOIs	https://doi.org/10.1109/TSG.2016.2589903
State	Published - Nov 2017

Keywords

Emergency control.
Microgrid
Programmable network
Resilience
Software defined networking (SDN)

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10.1109/TSG.2016.2589903

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title = "Enabling resilient microgrid through programmable network",

abstract = "In this paper, we integrate programmable networks in microgrid (MG) to provide flexible and easy-To-manage communication solutions, thus enabling resilient MG operations in face of various cyber and physical disturbances. Specifically, two contributions have been made: 1) establish a novel softwaredefined networking (SDN) based communication architecture that abstracts the network infrastructure from the upper-level applications to significantly expedite the development of MG applications and 2) create a hardware-in-The-loop cyber-physical platform for evaluating and validating the performance of the presented architecture, control techniques, and SDN-based functionalities. Test results have demonstrated that the new architecture can significantly enhance MG resilience, particularly for those that have high penetration of renewable energy sources.",

keywords = "Emergency control., Microgrid, Programmable network, Resilience, Software defined networking (SDN)",

author = "Lingyu Ren and Yanyuan Qin and Bing Wang and Peng Zhang and Luh, \{Peter B.\} and Ruofan Jin",

note = "Publisher Copyright: {\textcopyright} 2016 IEEE.",

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AU - Ren, Lingyu

AU - Qin, Yanyuan

AU - Wang, Bing

AU - Zhang, Peng

AU - Luh, Peter B.

AU - Jin, Ruofan

PY - 2017/11

Y1 - 2017/11

N2 - In this paper, we integrate programmable networks in microgrid (MG) to provide flexible and easy-To-manage communication solutions, thus enabling resilient MG operations in face of various cyber and physical disturbances. Specifically, two contributions have been made: 1) establish a novel softwaredefined networking (SDN) based communication architecture that abstracts the network infrastructure from the upper-level applications to significantly expedite the development of MG applications and 2) create a hardware-in-The-loop cyber-physical platform for evaluating and validating the performance of the presented architecture, control techniques, and SDN-based functionalities. Test results have demonstrated that the new architecture can significantly enhance MG resilience, particularly for those that have high penetration of renewable energy sources.

AB - In this paper, we integrate programmable networks in microgrid (MG) to provide flexible and easy-To-manage communication solutions, thus enabling resilient MG operations in face of various cyber and physical disturbances. Specifically, two contributions have been made: 1) establish a novel softwaredefined networking (SDN) based communication architecture that abstracts the network infrastructure from the upper-level applications to significantly expedite the development of MG applications and 2) create a hardware-in-The-loop cyber-physical platform for evaluating and validating the performance of the presented architecture, control techniques, and SDN-based functionalities. Test results have demonstrated that the new architecture can significantly enhance MG resilience, particularly for those that have high penetration of renewable energy sources.

KW - Emergency control.

KW - Microgrid

KW - Programmable network

KW - Resilience

KW - Software defined networking (SDN)

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Enabling resilient microgrid through programmable network

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