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Robust Tracking Error Feedback Control for a One-Dimensional Schrödinger Equation

Jun‐Jun Liu, Bao‐Zhu Guo

2021IEEE Transactions on Automatic Control26 citationsDOI

Abstract

In this article, we consider robust output tracking for a Schrödinger equation with external disturbances in all possible channels. The challenge of the problem comes from the fact that the observation operator is unbounded and the regulated output and the control are noncollocated. An observer-based approach is adopted in investigation. We first select specially some coefficients of the disturbances to obtain a nominal system, which is a coupled PDE+ODE system. For this nominal system, we design a feedforward control by solving related regulator equation. An observer is then designed for the nominal system in terms of the tracking error only. As a result, an error feedback control is, thus, designed by replacing the state and disturbances in the feedforward control with their estimates obtained from the observer. We show that this observer based error feedback control is robust to disturbances in all possible channels and system uncertainty. The stability of the closed loop and convergence are established by the Riesz basis approach. Some numerical simulations are presented to validate the results.

Topics & Concepts

Control theory (sociology)Feed forwardObserver (physics)State observerTracking errorMathematicsRobustness (evolution)Robust controlStability (learning theory)Convergence (economics)Control systemComputer scienceControl (management)Control engineeringEngineeringNonlinear systemArtificial intelligenceGeneEconomicsChemistryEconomic growthElectrical engineeringQuantum mechanicsPhysicsMachine learningBiochemistryStability and Controllability of Differential EquationsNumerical methods for differential equationsAdvanced Mathematical Physics Problems