Litcius/Paper detail

Mixed Gain/Phase Robustness Criterion for Structured Perturbations With an Application to Power System Stability

Luke Woolcock, Robert Schmid

2023IEEE Control Systems Letters14 citationsDOI

Abstract

A novel conception of phase for linear time-invariant multivariable systems was recently introduced. It enables robustness of such systems to be determined in terms of a phase-bounded set of perturbations via a so-called small phase theorem, in analogy to the well-known small gain theorem. However, it requires the system’s frequency response to satisfy the relatively strong condition known as “sectoriality”, which not all practical systems have. This paper aims to show that if the perturbation is assumed to have a block diagonal structure, a matrix-valued multiplier function can be calculated that can enable phase-based robustness margins to be defined in some cases when the original system is not sectorial. A real-world power systems example is presented to show how the small phase criterion using a multiplier can significantly reduce the conservatism of the small gain theorem, providing computationally straightforward methods to inform further nonlinear stability analysis of power systems.

Topics & Concepts

Small-gain theoremControl theory (sociology)MathematicsRobustness (evolution)Perturbation (astronomy)Nonlinear systemDiagonalMinimum phaseElectric power systemBounded functionTransfer functionDiagonally dominant matrixComputer scienceMathematical analysisPower (physics)Pure mathematicsEngineeringPhysicsControl (management)BiochemistryQuantum mechanicsElectrical engineeringGeneChemistryGeometryInvertible matrixArtificial intelligencePower System Optimization and StabilityMicrogrid Control and OptimizationHVDC Systems and Fault Protection