2022
DOI: 10.1109/tim.2022.3165247
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PMU-Based Estimation of Systematic Measurement Errors, Line Parameters, and Tap Changer Ratios in Three-Phase Power Systems

Abstract: The availability of accurate data is fundamental for several monitoring and control applications of modern power grids. Nevertheless, the knowledge of critical data such as transmission line and transformer parameters is often affected by uncertainty. This can lead to important problems in the correct management of the power systems. In spite of a monitoring infrastructure that is being renewed thanks to new generation devices providing synchronized measurements, the actual values of line parameters and tap ch… Show more

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Cited by 12 publications
(6 citation statements)
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“…Thus, the DSSE used in this paper runs with measurements of node voltage and current injection. Branch currents, together with node voltage measurements, are instead used for the line parameters estimation method as presented in [40], [41]. Operators can apply such a method, in quasi-steady-state conditions, both online or offline depending on the needs, to periodically update the estimates of line parameters and systematic errors of the measurement chain.…”
Section: Problem Definitionmentioning
confidence: 99%
“…Thus, the DSSE used in this paper runs with measurements of node voltage and current injection. Branch currents, together with node voltage measurements, are instead used for the line parameters estimation method as presented in [40], [41]. Operators can apply such a method, in quasi-steady-state conditions, both online or offline depending on the needs, to periodically update the estimates of line parameters and systematic errors of the measurement chain.…”
Section: Problem Definitionmentioning
confidence: 99%
“…These synchrophasor measurements are referred to the same time instant t, i.e an UTC (Coordinated Universal Time) timestamp. The π-models of transmission lines and transformers, like in [16], allow the definition of a measurement model that links synchrophasor measurements to the magnitude and phase-angle measurement errors and to line parameters deviations from their nominal (or available) values. Thanks to this model, it is possible to express each synchrophasor measurement as function of its reference value (indicated in this paper with superscript R ) and all associated measurement errors as follows:…”
Section: A Tap-changing Transformer and Measurement Uncertainty Modelsmentioning
confidence: 99%
“…where β sr and τ sr are the unknowns relative deviations from the nominal transformer reactance and tap ratio, while X 0 sr and a 0 sr are the associated nominal (or available) values. Like in [16], tap changer ratios are here considered uncertain because they cannot be known exactly.…”
Section: A Tap-changing Transformer and Measurement Uncertainty Modelsmentioning
confidence: 99%
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“…Reference [9] mentioned the problem of data loss caused by PMUs and reference [10] showed a method of using PMUs' synchronous measurement data to determine the uncertainty bounds of transmission lines. Reference [11] designed a PMU-based robust state estimation method for real-time monitoring of a power system under different operational conditions, and reference [12] constructed a Kalman filter approach to power system state estimation based on PMUs. The real-time assessment of STVS is based on the dynamic information collected by PMUs after the power system experiences disturbances, and the power system will trigger emergency control in a timely manner when an unstable state is predicted.…”
Section: Introductionmentioning
confidence: 99%