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Model-Predictive Control Design for Power System Oscillation Damping via Excitation – A Data-Driven Approach

Wenjie Han, A.M. Stanković

2022IEEE Transactions on Power Systems34 citationsDOI

Abstract

This paper presents a novel power system oscillation damping controller design based on a data-driven model-predictive control (MPC) approach. The system dynamics are extracted from the measurements and applied to the synthesis of control actions in an equation-free manner, without requiring explicit knowledge of the underlying system model. Dynamic mode decomposition with control (DMDc), originating from the Koopman operator theory, connects the collected data with the nonlinear dynamical system modeling. The discrepancy between the model identified by DMDc and the real plant is labeled as a total disturbance. It is estimated in real time by an extended state observer (ESO) and mitigated via a linear MPC, assuming the estimate to be constant over the prediction horizon. The overall control framework is referred to as <italic xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">ESO-Koopman-MPC (EKM)</i> . Two <italic xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">EKM</i> -based oscillation damping controllers are proposed - a standalone PSS and an integrated AVR+PSS. The controller operation is illustrated on the single machine infinite bus system (SMIB), Kundur two-area system and IEEE 39-bus system, and the performance is compared with conventional power system stabilizers (CPSSs) under various test scenarios.

Topics & Concepts

Control theory (sociology)Controller (irrigation)Electric power systemModel predictive controlOscillation (cell signaling)Computer scienceControl engineeringNonlinear systemPower (physics)EngineeringControl (management)Artificial intelligencePhysicsAgronomyQuantum mechanicsBiologyGeneticsPower System Optimization and StabilityModel Reduction and Neural NetworksOptimal Power Flow Distribution
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