SDN-Enabled Cyber-Physical Security in Networked Microgrids

Yan Li; Yanyuan Qin; Peng Zhang; Amir Herzberg

doi:10.1109/TSTE.2018.2889451

SDN-Enabled Cyber-Physical Security in Networked Microgrids

Yan Li
, Yanyuan Qin
, Peng Zhang
, Amir Herzberg

University of Connecticut

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

50 Scopus citations

Abstract

A software-defined active synchronous detection (SDASD) is presented to protect networked microgrids (NMs) from cyberattacks on SDN network and power bot attacks on inverter controllers of distributed energy resources (DERs). A HostStatus-Checker is designed and embedded in an SDN controller to authenticate the entity of hosts for data communication of NMs. Based on the secured communication layer, active synchronous detection method is introduced to efficiently detect power bot attacks on DER controllers in NMs without impeding system normal operations. Extensive tests show that SDASD can detect and mitigate malicious attacks online and serve as a powerful safeguard for monitoring and protecting future NMs.

Original language	English
Article number	8586966
Pages (from-to)	1613-1622
Number of pages	10
Journal	IEEE Transactions on Sustainable Energy
Volume	10
Issue number	3
DOIs	https://doi.org/10.1109/TSTE.2018.2889451
State	Published - Jul 2019

Keywords

Cyberattack
active synchronous detection
cyber-physical security
distributed energy resources
host location hijacking
networked microgrids
software-define networking

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10.1109/TSTE.2018.2889451

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title = "SDN-Enabled Cyber-Physical Security in Networked Microgrids",

abstract = "A software-defined active synchronous detection (SDASD) is presented to protect networked microgrids (NMs) from cyberattacks on SDN network and power bot attacks on inverter controllers of distributed energy resources (DERs). A HostStatus-Checker is designed and embedded in an SDN controller to authenticate the entity of hosts for data communication of NMs. Based on the secured communication layer, active synchronous detection method is introduced to efficiently detect power bot attacks on DER controllers in NMs without impeding system normal operations. Extensive tests show that SDASD can detect and mitigate malicious attacks online and serve as a powerful safeguard for monitoring and protecting future NMs.",

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author = "Yan Li and Yanyuan Qin and Peng Zhang and Amir Herzberg",

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AU - Herzberg, Amir

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AB - A software-defined active synchronous detection (SDASD) is presented to protect networked microgrids (NMs) from cyberattacks on SDN network and power bot attacks on inverter controllers of distributed energy resources (DERs). A HostStatus-Checker is designed and embedded in an SDN controller to authenticate the entity of hosts for data communication of NMs. Based on the secured communication layer, active synchronous detection method is introduced to efficiently detect power bot attacks on DER controllers in NMs without impeding system normal operations. Extensive tests show that SDASD can detect and mitigate malicious attacks online and serve as a powerful safeguard for monitoring and protecting future NMs.

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SDN-Enabled Cyber-Physical Security in Networked Microgrids

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