Review of Low-Rank Data-Driven Methods Applied to Synchrophasor Measurement

Review of Low-Rank Data-Driven Methods Applied to Synchrophasor Measurement

There is a growing acceptance of using synchrophasor data collected over large power systems in control centers to enhance the reliability of power system operations. The spatial and temporal nature of power system ambient and disturbance response allows the analysis of large amount of synchrophasor...

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Detalles Bibliográficos
Autores principales: Meng Wang, Joe H. Chow, Denis Osipov, Stavros Konstantinopoulos, Shuai Zhang, Evangelos Farantatos, Mahendra Patel
Formato: article
Lenguaje:EN
Publicado: IEEE 2021
Materias:
Synchrophasor data
low rankness
matrix completion
tensor analysis
adaptive filtering
Distribution or transmission of electric power
TK3001-3521
Production of electric energy or power. Powerplants. Central stations
TK1001-1841
Acceso en línea:https://doaj.org/article/cdba7ef47afd4fdd879046d063c69ada
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Sumario:There is a growing acceptance of using synchrophasor data collected over large power systems in control centers to enhance the reliability of power system operations. The spatial and temporal nature of power system ambient and disturbance response allows the analysis of large amount of synchrophasor data by low-rank methods. This paper provides an overview of several applications of synchrophasor data utilizing the low-rank property. The tools to capitalize on the low-rank property include matrix completion methods, tensor analysis, adaptive filtering, and machine learning. The applications include missing data recovery, bad data correction, and disturbance recognition.

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