Jasim Khawwaf scite author profile

Jasim Khawwaf

4Publications

46Citation Statements Received

176Citation Statements Given

How they've been cited

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150

176

Affiliations

Swinburne University of Technology, University of Kufa

Publications

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Robust tracking control of an IPMC actuator using nonsingular terminal sliding mode

Khawwaf

Zheng

et al. 2017

Smart Mater. Struct.

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Ionic polymer metal composite (IPMC) is a highly innovative material that has recently gained attention in many fields such as medical, biomimetic, and micro/nano underwater applications. The main characteristic of IPMC lies in its ability to achieve a large deflection under a fairly low driving voltage. Moreover, its agile, light weight, noiseless and flexible features render it well suited for certain specific applications. Like other smart materials, such as piezoelectric ceramics, IPMC could be used in actuators or sensors. In this paper, we study the application of IPMC as an actuator for underwater use. The goal is to develop a robust feedback controller for the IPMC actuator to track a desired reference whilst dealing with the uncertainties due to the inherent actuator nonlinearity, external disturbance or the variations of working environment. To this end, we first present a nominal model of the IPMC actuator through experimental identification. Next, a nonsingular terminal sliding mode controller is proposed. Lastly, experimental studies are conducted to verify the tracking accuracy and robustness of the designed controller.

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Adaptive Microtracking Control for an Underwater IPMC Actuator Using New Hyperplane-Based Sliding Mode

Khawwaf

Zheng

Chai

et al. 2019

IEEE/ASME Trans. Mechatron.

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Control of an IPMC Soft Actuator Using Adaptive Full-Order Recursive Terminal Sliding Mode

et al. 2021

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The ionic polymer metal composite (IPMC) actuator is a kind of soft actuator that can work for underwater applications. However, IPMC actuator control suffers from high nonlinearity due to the existence of inherent creep and hysteresis phenomena. Furthermore, for underwater applications, they are highly exposed to parametric uncertainties and external disturbances due to the inherent characteristics and working environment. Those factors significantly affect the positioning accuracy and reliability of IPMC actuators. Hence, feedback control techniques are vital in the control of IPMC actuators for suppressing the system uncertainty and external disturbance. In this paper, for the first time an adaptive full-order recursive terminal sliding-mode (AFORTSM) controller is proposed for the IPMC actuator to enhance the positioning accuracy and robustness against parametric uncertainties and external disturbances. The proposed controller incorporates an adaptive algorithm with terminal sliding mode method to release the need for any prerequisite bound of the disturbance. In addition, stability analysis proves that it can guarantee the tracking error to converge to zero in finite time in the presence of uncertainty and disturbance. Experiments are carried out on the IPMC actuator to verify the practical effectiveness of the AFORTSM controller in comparison with a conventional nonsingular terminal sliding mode (NTSM) controller in terms of smaller tracking error and faster disturbance rejection.

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Second‐order terminal sliding mode control based on perturbation estimation for nanopositioning stage

Al-Ghanimi

Zheng

Aldhalemi

et al. 2020

IET cyber-systems robotics

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Jasim Khawwaf

Robust tracking control of an IPMC actuator using nonsingular terminal sliding mode

Adaptive Microtracking Control for an Underwater IPMC Actuator Using New Hyperplane-Based Sliding Mode

Control of an IPMC Soft Actuator Using Adaptive Full-Order Recursive Terminal Sliding Mode

Second‐order terminal sliding mode control based on perturbation estimation for nanopositioning stage

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