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High-order fully-actuated system approaches: Part VI. Disturbance attenuation and decoupling

Guang‐Ren Duan

2021International Journal of Systems Science153 citationsDOIOpen Access PDF

Abstract

Two types of high-order fully actuated (HOFA) system models subject to external disturbances are firstly introduced. For the type of HOFA systems with deterministic disturbances, the problem of disturbance attenuation via state feedback is treated. While for the type of HOFA systems with dynamical disturbances, the problem of asymptotic disturbance decoupling via output feedback is considered. Utilising the full-actuation feature of the HOFA systems, disturbance attenuation and decoupling controllers for the corresponding systems are conveniently designed such that constant linear closed-loop systems with designed disturbance rejection properties are resulted in. Parametric designs for both controllers are provided, and disturbance attenuation is achieved by establishing a parametric form of the closed-loop transfer function from the disturbance to the output, while the parametric form of the disturbance decoupling controller is derived based on a complete parametric solution to a type of generalised Sylvester equations (GSEs). As a consequence of the parameter approaches, additional performance requirements on the closed-loop systems can be also easily handled. An illustrative example demonstrates the effect of the proposed approach.

Topics & Concepts

Control theory (sociology)Decoupling (probability)Disturbance (geology)Parametric statisticsAttenuationTransfer functionControl engineeringComputer scienceEngineeringMathematicsPhysicsControl (management)Artificial intelligenceBiologyStatisticsElectrical engineeringOpticsPaleontologyAdaptive Control of Nonlinear SystemsStability and Control of Uncertain SystemsIterative Learning Control Systems