Robust Identification Method for Transmission Line Parameters That Considers PMU Phase Angle Error

Accurate transmission line parameters are the basis of power system calculations. The measured phasor measurement unit (PMU) phase angle data at both ends of a line may contain large errors caused by synchronization problems, which can seriously affect the accuracy of parameter identification. This...

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Bibliographic Details
Published in:IEEE access 2020, Vol.8, p.86962-86971
Main Authors: Xue, Ancheng, Xu, Feiyang, Martin, Kenneth E., You, Hongyu, Xu, Jingsong, Wang, Li, Wei, Guoen
Format: Article
Language:English
Subjects:
Identification methods
Measuring instruments
median estimation
Noise reduction
Nonlinear equations
Parameter identification
phase angle error
Phase shift
Phasors
positive sequence parameter
Robustness
Synchronism
transmission line
Transmission lines
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Summary:Accurate transmission line parameters are the basis of power system calculations. The measured phasor measurement unit (PMU) phase angle data at both ends of a line may contain large errors caused by synchronization problems, which can seriously affect the accuracy of parameter identification. This paper proposes a robust PMU-based method for calculating transmission line parameters from PMU data at both ends of a line in such a way that a synchronization error between the ends does not degrade the results. Specifically, a \pi -equivalent model for the transmission line is established, and a least square objective function with nonlinear equations for positive parameter identification is derived. Furthermore, to reduce the impact of noise and biased data, median estimation is used to obtain the final result. Finally, a simulation shows the effectiveness and robustness of the proposed method, and its practicality is demonstrated in a case study using measured PMU data.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2020.2992247