Add to ORKGAbstract — This paper proposes an adaptive robust output feedback controller for position-tracking problem of a magnetic levitation system with a current feedback power amplifier. The controller is designed by a backstepping procedure with robustifying modification of the k-filter approach. The bound-edness and guaranteed transient performance of the error signals are achieved by the nonlinear damping terms. And the ultimate position-tracking error is reduced by the adaptive laws. Experimental results are included to show the excellent control performance of the designed controller. I
Abstract — In this paper, a novel robust nonlinear motion controller with disturbance observer (DOB)...
This paper proposes a nonlinear adaptive control method integrated with finite element approximation...
A novel adaptive fixed-time controller (AFTC) based on disturbance compensation technology is propos...
This paper presents, an adaptive finite impulse response (FIR) filter based controller used for the ...
This paper presents, an adaptive finite impulse response (FIR) filter based controller used for the ...
This paper presents, an adaptive finite impulse response (FIR) filter based controller used for the ...
Abstract — This paper considers the control problem of a popular magnetic levitation system, which i...
The Magnetic Levitation System is one of the important benchmark laboratory models for the design an...
Abstract — This paper considers the position tracking prob-lem of a magnetic levitation system in th...
This paper focuses on stability control for the levitated positioning of the magnetic levitation veh...
In this paper, a combination of a robust backstepping controller and an integral action for a magnet...
This paper presents designing an adaptive state feedback controller (ASFC) for a magnetic levitation...
This paper presents designing an adaptive state feedback controller (ASFC) for a magnetic levitation...
Abstract: The Magnetic Levitation System is one of the important benchmark laboratory models for the...
In this article,,issues of position tracking of a magnetic levitation system with unknown control-af...
Abstract — In this paper, a novel robust nonlinear motion controller with disturbance observer (DOB)...
This paper proposes a nonlinear adaptive control method integrated with finite element approximation...
A novel adaptive fixed-time controller (AFTC) based on disturbance compensation technology is propos...
This paper presents, an adaptive finite impulse response (FIR) filter based controller used for the ...
This paper presents, an adaptive finite impulse response (FIR) filter based controller used for the ...
This paper presents, an adaptive finite impulse response (FIR) filter based controller used for the ...
Abstract — This paper considers the control problem of a popular magnetic levitation system, which i...
The Magnetic Levitation System is one of the important benchmark laboratory models for the design an...
Abstract — This paper considers the position tracking prob-lem of a magnetic levitation system in th...
This paper focuses on stability control for the levitated positioning of the magnetic levitation veh...
In this paper, a combination of a robust backstepping controller and an integral action for a magnet...
This paper presents designing an adaptive state feedback controller (ASFC) for a magnetic levitation...
This paper presents designing an adaptive state feedback controller (ASFC) for a magnetic levitation...
Abstract: The Magnetic Levitation System is one of the important benchmark laboratory models for the...
In this article,,issues of position tracking of a magnetic levitation system with unknown control-af...
Abstract — In this paper, a novel robust nonlinear motion controller with disturbance observer (DOB)...
This paper proposes a nonlinear adaptive control method integrated with finite element approximation...
A novel adaptive fixed-time controller (AFTC) based on disturbance compensation technology is propos...