Litcius/Paper detail

An Optimized Subspace-Based Approach to Synchrophasor Estimation

Zachary D. Drummond, Kevin Claytor, David R. Allee, David M. Hull

2020IEEE Transactions on Instrumentation and Measurement23 citationsDOI

Abstract

We present two improvements to the subspace-based phasor measurement unit (PMU) algorithms based on ESPRIT frequency estimation. The first is a dynamic, real-time thresholding method to determine the size of the signal subspace. This allows for accurate ESPRIT-based frequency estimates of the nominal system frequency and the frequencies of any out-of-band interference or harmonic frequencies. Since other frequencies are included in the least squares (LS) estimate, the interference from frequencies other than nominal can be excluded. This results in a near flat estimation error over changes in: 1) nominal system frequency; 2) harmonic distortion; and 3) out-of-band interference. We also reduce the computational burden of ESPRIT and demonstrate the proposed algorithm running in real time on resource-constrained platforms. The accuracy of this algorithm is evaluated using the IEEE standard for synchrophasor estimation, IEC/IEEE 60255-118-1, and compared with another state-of-the-art PMU algorithm.

Topics & Concepts

Subspace topologySignal subspaceInterference (communication)PhasorAlgorithmPhasor measurement unitComputer scienceDistortion (music)Electronic engineeringElectric power systemEngineeringNoise (video)TelecommunicationsPower (physics)Bandwidth (computing)Artificial intelligenceAmplifierQuantum mechanicsPhysicsImage (mathematics)Channel (broadcasting)Power System Optimization and StabilityAdvanced Electrical Measurement TechniquesPhysics of Superconductivity and Magnetism