[[abstract]]A perturbation estimator using the theory of variable-structure systems is proposed to enhance the robustness of a pole-placement controller design, In its ideal form, the pole-placement design using feedback-linearization technique achieves a desired performance in nonlinear time-varying systems, However, its performance deteriorates rapidly with the presence of disturbance and parametric uncertainties, referred to as perturbation, The estimate generated by the proposed perturbation estimator is incorporated as an additional input to rectify the uncertainties in the nominal control model of the pole-placement design, The proposed scheme requires neither the measurement of the time derivative of the state vector nor the precise ...
This work proposes a systematic two-degree freedom control scheme to improve the reference input tra...
The Magnetic Levitation System is one of the important benchmark laboratory models for the design an...
This paper proposes a systematic feedback controller design methodology for multi-input multi-output...
[[abstract]]A perturbation estimator using the theory of variable-structure systems is proposed to e...
This paper presents a variable structure control (VSC) design procedure for robust stabilization and...
Abstract-The problem of robust controller design under PWM feedback is discussed in terms of Filippo...
Abstract: In this paper, a position regulation control strat-egy is developed for a magnetic levita...
This paper presents designing an adaptive state feedback controller (ASFC) for a magnetic levitation...
The contribution deals with the problem of designing a control system for a magnetic levitation appa...
Abstract: This paper shows that the highly nonlinear, unstable and fast system of magnetic levitatio...
Nonlinear system control belongs to advanced control problems important for real plants control desi...
Magnetic levitation is a new technology gaining popularity for use in many applications,the most not...
There is a growing demand for magnetic suspension systems, especially in the field of high accuracy ...
The problem of robust motion control of multi-axes-mechanisms (MAM) is studied within the framework ...
We study the problem of controlling the position of a platen levitated using linear motors in three-...
This work proposes a systematic two-degree freedom control scheme to improve the reference input tra...
The Magnetic Levitation System is one of the important benchmark laboratory models for the design an...
This paper proposes a systematic feedback controller design methodology for multi-input multi-output...
[[abstract]]A perturbation estimator using the theory of variable-structure systems is proposed to e...
This paper presents a variable structure control (VSC) design procedure for robust stabilization and...
Abstract-The problem of robust controller design under PWM feedback is discussed in terms of Filippo...
Abstract: In this paper, a position regulation control strat-egy is developed for a magnetic levita...
This paper presents designing an adaptive state feedback controller (ASFC) for a magnetic levitation...
The contribution deals with the problem of designing a control system for a magnetic levitation appa...
Abstract: This paper shows that the highly nonlinear, unstable and fast system of magnetic levitatio...
Nonlinear system control belongs to advanced control problems important for real plants control desi...
Magnetic levitation is a new technology gaining popularity for use in many applications,the most not...
There is a growing demand for magnetic suspension systems, especially in the field of high accuracy ...
The problem of robust motion control of multi-axes-mechanisms (MAM) is studied within the framework ...
We study the problem of controlling the position of a platen levitated using linear motors in three-...
This work proposes a systematic two-degree freedom control scheme to improve the reference input tra...
The Magnetic Levitation System is one of the important benchmark laboratory models for the design an...
This paper proposes a systematic feedback controller design methodology for multi-input multi-output...