Add to ORKGA simple Linear Parameter Varying (LPV) identification and control sheme is applied to a single degree-of-freedom (DOF) noncontact and highly non-linear electromagnetic levitation system. The control requirements demand accurate positioning and robust performance in a working range of high nonlinearity. An LPV model and a simple LPV controller structure are introduced. Closed-loop stability can be verified by LMIs. Simulation results show that the proposed LPV controller stabilizes the electromagnetic system in a working range of high nonlinearity with robust performance
Magnetic levitation is a technique to suspend an object without any mechanical support. The main obj...
This paper describes design and implementation of a control philosophy for simultaneous stabilizatio...
Active magnetic levitation AML systems have been widely used in magnetic levitation vehicles, wind ...
A simple Linear Parameter Varying (LPV) identification and control sheme is applied to a single degr...
This paper presents a non-linear control of a magnetic levitation system without current feedback ba...
The two most advanced applications of contactless magnetic levitation are high-speed magnetic bearin...
This paper presents a non-linear control for a magnetic levitation system of a flexible object based...
One of the most challenging aspects in the nonlinear control of a magnetic levitation (Maglev) syste...
We study the problem of controlling the position of a platen levitated using linear motors in three-...
This paper proposes a nonlinear adaptive control method integrated with finite element approximation...
This note presents a unified framework to derive nonlinear H state and output feedback controllers f...
Magnetic Levitation Systems (MLS) is a higher advanced technology without any mechanical contact tha...
This paper focuses on stability control for the levitated positioning of the magnetic levitation veh...
Abstract — In this paper, we derive the model of a three-magnet positioning device and design a nonl...
Abstract--Magnetic levitation refers to suspending an object in air without any physical support, ju...
Magnetic levitation is a technique to suspend an object without any mechanical support. The main obj...
This paper describes design and implementation of a control philosophy for simultaneous stabilizatio...
Active magnetic levitation AML systems have been widely used in magnetic levitation vehicles, wind ...
A simple Linear Parameter Varying (LPV) identification and control sheme is applied to a single degr...
This paper presents a non-linear control of a magnetic levitation system without current feedback ba...
The two most advanced applications of contactless magnetic levitation are high-speed magnetic bearin...
This paper presents a non-linear control for a magnetic levitation system of a flexible object based...
One of the most challenging aspects in the nonlinear control of a magnetic levitation (Maglev) syste...
We study the problem of controlling the position of a platen levitated using linear motors in three-...
This paper proposes a nonlinear adaptive control method integrated with finite element approximation...
This note presents a unified framework to derive nonlinear H state and output feedback controllers f...
Magnetic Levitation Systems (MLS) is a higher advanced technology without any mechanical contact tha...
This paper focuses on stability control for the levitated positioning of the magnetic levitation veh...
Abstract — In this paper, we derive the model of a three-magnet positioning device and design a nonl...
Abstract--Magnetic levitation refers to suspending an object in air without any physical support, ju...
Magnetic levitation is a technique to suspend an object without any mechanical support. The main obj...
This paper describes design and implementation of a control philosophy for simultaneous stabilizatio...
Active magnetic levitation AML systems have been widely used in magnetic levitation vehicles, wind ...