Add to ORKGActive magnetic levitation AML systems have been widely used in magnetic levitation vehicles, wind turbine, medical applications, micro robot actuation and turbo-machinery. Contactless support of objects continues to be a fantasy for several centuries. The utilization of magnetic forces seems to be the ideal solution in many situations to such a goal. Using magnetic forces to support an object without any mechanical contact is constrained by the laws of magnetism. Earnshaw’s theorem states that when the inverse-square-law forces govern several charged particles, they can never be within a stable equilibrium. The interaction between ferromagnetic objects and electromagnets of either the active or passive type, is associated with an uns...
This paper investigates the disturbance rejection problem of nonlinear MAGnetic LEViation (MAGLEV) s...
This paper concerns with designing of a robust H∞ controller for Magnetic Levitation system exposed ...
Investigation on the application of flatness-based feedback linearization to the magnetic levitation...
Active magnetic levitation AML systems have been widely used in magnetic levitation vehicles, wind ...
© 2016 IEEE. Magnetic levitation (Maglev) systems make significant contribution to industrial applic...
The two most advanced applications of contactless magnetic levitation are high-speed magnetic bearin...
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...
Abstract: In this paper, a position regulation control strat-egy is developed for a magnetic levita...
Abstract — This paper considers the control problem of a popular magnetic levitation system, which i...
Magnetic levitation (Maglev) system is a stimulating nonlinear mechatronic system in which an electr...
This thesis describes the analysis, design procedure, and real-time control of a magnetic levitatio...
Nonlinear system control belongs to advanced control problems important for real plants control desi...
In this work, we suggest a technique of controller design that applied to systems based on nonlinea...
This paper focuses on stability control for the levitated positioning of the magnetic levitation veh...
This paper investigates the disturbance rejection problem of nonlinear MAGnetic LEViation (MAGLEV) s...
This paper concerns with designing of a robust H∞ controller for Magnetic Levitation system exposed ...
Investigation on the application of flatness-based feedback linearization to the magnetic levitation...
Active magnetic levitation AML systems have been widely used in magnetic levitation vehicles, wind ...
© 2016 IEEE. Magnetic levitation (Maglev) systems make significant contribution to industrial applic...
The two most advanced applications of contactless magnetic levitation are high-speed magnetic bearin...
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...
Abstract: In this paper, a position regulation control strat-egy is developed for a magnetic levita...
Abstract — This paper considers the control problem of a popular magnetic levitation system, which i...
Magnetic levitation (Maglev) system is a stimulating nonlinear mechatronic system in which an electr...
This thesis describes the analysis, design procedure, and real-time control of a magnetic levitatio...
Nonlinear system control belongs to advanced control problems important for real plants control desi...
In this work, we suggest a technique of controller design that applied to systems based on nonlinea...
This paper focuses on stability control for the levitated positioning of the magnetic levitation veh...
This paper investigates the disturbance rejection problem of nonlinear MAGnetic LEViation (MAGLEV) s...
This paper concerns with designing of a robust H∞ controller for Magnetic Levitation system exposed ...
Investigation on the application of flatness-based feedback linearization to the magnetic levitation...