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Negative Imaginary Theory for a Class of Linear Time-Varying Systems

Suleiman Kurawa, Parijat Bhowmick, Alexander Lanzon

2020IEEE Control Systems Letters19 citationsDOIOpen Access PDF

Abstract

This letter introduces the notion of linear timevarying (LTV) negative imaginary systems. LTV negative imaginary systems are defined using a time-domain dissipative supply rate w(u, ẏ) that depends on input to the system (u), time-derivative of the system's output (ẏ) and an index δ ≥ 0. For δ > 0, it gives rise to a strict subclass within the LTV negative imaginary systems, termed as LTV output strictly negative imaginary systems. For characterizing the proposed class of systems, a set of linear differential matrix inequality conditions is derived based on the given state-space realization. Subsequently, LTV negative imaginary theory is specialized to linear parameter-varying (LPV) cases for which, the differential matrix inequality conditions can easily be avoided by considering the rate of variation of the uncertain parameters as independent LMI variables. Finally, a set of sufficient conditions is derived which ensures that the origin is a globally asymptotically stable equilibrium point of an unforced positive feedback interconnection of two uniformly asymptotically stable LTV negative imaginary systems.

Topics & Concepts

MathematicsDissipative systemLinear systemApplied mathematicsRealization (probability)Linear matrix inequalityMathematical analysisControl theory (sociology)Mathematical optimizationComputer sciencePhysicsArtificial intelligenceQuantum mechanicsStatisticsControl (management)Piezoelectric Actuators and ControlAeroelasticity and Vibration ControlControl and Stability of Dynamical Systems