Nizar J. Ahmad scite author profile

This paper presents a robust adaptive control scheme for a class of continuous-time linear systems with unknown non-smooth asymmetrical deadzone nonlinearity at the input of the plant. The methodology is applied to handle input deadzone as well as unmeasurable disturbances simultaneously in strictly matched systems. The proposed controller robustly cancels any residual distortion caused by the inaccurate deadzone cancellation scheme. The scheme is shown to successfully cancel the deadzone's deleterious effect as well as eliminate other unmeasurable disturbances within the span of the input. The new controller ensures the global stability of all states and adaptations, and achieves asymptotic tracking. The asymptotic stability of the closed-loop system is proven by Lyapunov arguments, and simulation results confirm the efficacy of the control methodology.

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Friction compensation for drives with and without transmission compliance

Jain

Khorrami

Ahmad

et al. 1997

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Global Asmptotic Stability for Systems with Friction and Input Backlash

Ahmad

Ebraheem

Qasem

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Diagnosis of Hand Tumors using fNIR Optical System

Sultan

Ahmad

Daryoush

2017

IJBSBT

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Nizar J. Ahmad

Adaptive control of a DC motor with uncertain deadzone nonlinearity at the input

Robust Adaptive Control for a Class of Systems with Deadzone Nonlinearity

Friction compensation for drives with and without transmission compliance

Global Asmptotic Stability for Systems with Friction and Input Backlash

Diagnosis of Hand Tumors using fNIR Optical System

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