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A Projection Operator-Based Discrete-Time Adaptive Architecture for Control of Uncertain Dynamical Systems With Actuator Dynamics

Stability analyses of discrete-time adaptive control algorithms are generally predicated on quadratic Lyapunov-based frameworks that result in unavoidable complexity due to the resulting terms in the Lyapunov difference equations. This prevents generalizations of valuable continuous-time adaptive co...

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Published in:	IEEE control systems letters 2022, Vol.6, p.3343-3348
Main Authors:	Dogan, K. Merve, Kurttisi, Atahan, Yucelen, Tansel, Koru, Ahmet T.
Format:	Article
Language:	English
Subjects:	actuator dynamics Actuators Adaptation models Adaptive control Aerodynamics Asymptotic stability Discrete-time Dynamical systems Uncertainty
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container_title	IEEE control systems letters
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creator	Dogan, K. Merve Kurttisi, Atahan Yucelen, Tansel Koru, Ahmet T.
description	Stability analyses of discrete-time adaptive control algorithms are generally predicated on quadratic Lyapunov-based frameworks that result in unavoidable complexity due to the resulting terms in the Lyapunov difference equations. This prevents generalizations of valuable continuous-time adaptive control results to their discrete-time settings. To this end, one important generalization is the consideration of actuator dynamics, which is present in any uncertain dynamical system. To address this problem, we propose a novel discrete-time adaptive control architecture predicated on the hedging method and a new projection operator. A logarithmic Lyapunov function is used for proving the asymptotic stability of the error between uncertain dynamical system states and hedging-based reference model states. An illustrative numerical example is then presented to demonstrate the efficacy of the proposed architecture.
doi_str_mv	10.1109/LCSYS.2022.3183670
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subjects	actuator dynamics Actuators Adaptation models Adaptive control Aerodynamics Asymptotic stability Discrete-time Dynamical systems Uncertainty
title	A Projection Operator-Based Discrete-Time Adaptive Architecture for Control of Uncertain Dynamical Systems With Actuator Dynamics
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