Adding power of artificial intelligence to situational awareness of large interconnections dominated by inverter‐based resources

Lin Zhu; Yinfeng Zhao; Yi Cui; Shutang You; Wenpeng Yu; Shengyuan Liu; He Yin; Chang Chen; Yuru Wu; Wei Qiu; Mirka Mandich; Hongyu Li; Adedasola Ademola; Chengwen Zhang; Chujie Zeng; Xinlan Jia; Weikang Wang; Haoyu Yuan; Huaiguang Jiang; Jin Tan; Yilu Liu

doi:10.1049/hve2.12157

High Voltage (Dec 2021)

Adding power of artificial intelligence to situational awareness of large interconnections dominated by inverter‐based resources

Lin Zhu,
Yinfeng Zhao,
Yi Cui,
Shutang You,
Wenpeng Yu,
Shengyuan Liu,
He Yin,
Chang Chen,
Yuru Wu,
Wei Qiu,
Mirka Mandich,
Hongyu Li,
Adedasola Ademola,
Chengwen Zhang,
Chujie Zeng,
Xinlan Jia,
Weikang Wang,
Haoyu Yuan,
Huaiguang Jiang,
Jin Tan,
Yilu Liu

Affiliations

Lin Zhu: The University of Tennessee Knoxville Tennessee USA
Yinfeng Zhao: The University of Tennessee Knoxville Tennessee USA
Yi Cui: The University of Tennessee Knoxville Tennessee USA
Shutang You: The University of Tennessee Knoxville Tennessee USA
Wenpeng Yu: The University of Tennessee Knoxville Tennessee USA
Shengyuan Liu: The University of Tennessee Knoxville Tennessee USA
He Yin: The University of Tennessee Knoxville Tennessee USA
Chang Chen: The University of Tennessee Knoxville Tennessee USA
Yuru Wu: The University of Tennessee Knoxville Tennessee USA
Wei Qiu: The University of Tennessee Knoxville Tennessee USA
Mirka Mandich: The University of Tennessee Knoxville Tennessee USA
Hongyu Li: The University of Tennessee Knoxville Tennessee USA
Adedasola Ademola: The University of Tennessee Knoxville Tennessee USA
Chengwen Zhang: The University of Tennessee Knoxville Tennessee USA
Chujie Zeng: The University of Tennessee Knoxville Tennessee USA
Xinlan Jia: The University of Tennessee Knoxville Tennessee USA
Weikang Wang: The University of Tennessee Knoxville Tennessee USA
Haoyu Yuan: National Renewable Energy Laboratory Golden Colorado USA
Huaiguang Jiang: National Renewable Energy Laboratory Golden Colorado USA
Jin Tan: National Renewable Energy Laboratory Golden Colorado USA
Yilu Liu: The University of Tennessee Knoxville Tennessee USA

DOI: https://doi.org/10.1049/hve2.12157
Journal volume & issue: Vol. 6, no. 6
pp. 924 – 937

Abstract

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Abstract Large‐scale power systems exhibit more complex dynamics due to the increasing integration of inverter‐based resources (IBRs). Therefore, there is an urgent need to enhance the situational awareness capability for better monitoring and control of power grids dominated by IBRs. As a pioneering Wide‐Area Measurement System, FNET/GridEye has developed and implemented various advanced applications based on the collected synchrophasor measurements to enhance the situational awareness capability of large‐scale power grids. This study provides an overview of the latest progress of FNET/GridEye. The sensors, communication, and data servers are upgraded to handle ultra‐high density synchrophasor and point‐on‐wave data to monitor system dynamics with more details. More importantly, several artificial intelligence (AI)‐based advanced applications are introduced, including AI‐based inertia estimation, AI‐based disturbance size and location estimation, AI‐based system stability assessment, and AI‐based data authentication.

Published in High Voltage

ISSN: 2397-7264 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering; Science: Physics: Electricity and magnetism: Electricity
Website: https://ietresearch.onlinelibrary.wiley.com/journal/23977264

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Abstract

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