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Adaptive State Estimation for Power Systems Measured by PMUs With Unknown and Time-Varying Error Statistics

Gang Cheng, Yuzhang Lin, Yanbo Chen, Tianshu Bi

2021IEEE Transactions on Power Systems41 citationsDOI

Abstract

Measurement error is a crucial factor that determines the accuracy of state estimation (SE). Conventional estimators have fixed models, and can yield optimal performance only when the measurement error statistics exactly meet the assumptions. In reality, however, the error distribution is usually unknown and time-varying, resulting in suboptimal state estimates in most cases. This paper develops the concept of adaptive SE for power systems measured by phasor measurement units (PMUs). First, the Gaussian-Laplacian Mixture (GLM) model is developed to fit the body and tail of unknown measurement error distributions. Then, an adaptive estimation framework is proposed based on the Expectation-Maximization (EM) algorithm. It is capable of tracking the actual error statistics online, and adjusting the parameters of SE to maintain near-optimality of state estimates under complex measurement error conditions. Simulation results demonstrate that the proposed adaptive estimator yields more accurate state estimates than the well-known Weighted Least Squares (WLS) and Weighted Least Absolute Value (WLAV) estimators by adapting itself to the variations of measurement error statistics.

Topics & Concepts

EstimatorPhasor measurement unitPhasorStatisticsObservational errorMathematicsOutlierPower (physics)Computer scienceElectric power systemMathematical optimizationControl theory (sociology)Artificial intelligenceControl (management)Quantum mechanicsPhysicsControl Systems and IdentificationPower System Optimization and StabilityFault Detection and Control Systems