This paper deals with rotor systems that suffer harmonic base excitation when supported on magnetic bearings. Magnetic bearings using conventional control techniques perform poorly in such situations mainly due to their highly nonlinear characteristics. The compensation method presented here is a novel optimal control procedure with a combination of conventional, proportional, and differential feedback control. A four-degree-of-freedom model is used for the rotor system, and the bearings are modeled by nonlinear expressions. Each disturbance frequency is expected to produce a multiharmonic system response, a characteristic of nonlinear systems. We apply optimal control choosing to minimize a performance index, which leads to the optimizatio...
New adaptive vibration control algorithms are developed for minimizing selected vibration performanc...
Previously published control strategies for magnetic bearings primarily focus on linear optimal cont...
Abstract: In the paper the optimal robust vibration control of flexible rotor supported by the activ...
Nonlinear vibration control of the twelve-poles electro-magnetic suspension system was tackled in th...
this paper, optimal control of a magnetic bearing without bias is investigated. A single degree-of-f...
The performance of a nonlinear position-velocity controller in stabilising the lateral vibrations of...
This publication deals with the robust control of active magnetic bearings (AMB). Methods are develo...
Conventional Active Magnetic Bearings (AMB) are operated using a bias current (or flux) to achieve g...
The proposed work focuses on improving the performance of the traditional nonlinear saturation contr...
ABSTRACT: Vibration control of a horizontal rotor with an asymmetrical moment of inertia is investig...
Rotating machinery has a subtle, but profound impact on contemporary societies. Many modern achievem...
This paper focuses on the synchronous vibration suppression of an active magnetic bearing (AMB) syst...
When a transient event, such as mass loss, occurs in a rotor/magnetic bearing system, optimal vibrat...
This paper addresses the development of a nonlinear control design for attenuating structural vibrat...
Abstract: The use of magnetic bearings in rotating machinery provides contact-free rotor support, an...
New adaptive vibration control algorithms are developed for minimizing selected vibration performanc...
Previously published control strategies for magnetic bearings primarily focus on linear optimal cont...
Abstract: In the paper the optimal robust vibration control of flexible rotor supported by the activ...
Nonlinear vibration control of the twelve-poles electro-magnetic suspension system was tackled in th...
this paper, optimal control of a magnetic bearing without bias is investigated. A single degree-of-f...
The performance of a nonlinear position-velocity controller in stabilising the lateral vibrations of...
This publication deals with the robust control of active magnetic bearings (AMB). Methods are develo...
Conventional Active Magnetic Bearings (AMB) are operated using a bias current (or flux) to achieve g...
The proposed work focuses on improving the performance of the traditional nonlinear saturation contr...
ABSTRACT: Vibration control of a horizontal rotor with an asymmetrical moment of inertia is investig...
Rotating machinery has a subtle, but profound impact on contemporary societies. Many modern achievem...
This paper focuses on the synchronous vibration suppression of an active magnetic bearing (AMB) syst...
When a transient event, such as mass loss, occurs in a rotor/magnetic bearing system, optimal vibrat...
This paper addresses the development of a nonlinear control design for attenuating structural vibrat...
Abstract: The use of magnetic bearings in rotating machinery provides contact-free rotor support, an...
New adaptive vibration control algorithms are developed for minimizing selected vibration performanc...
Previously published control strategies for magnetic bearings primarily focus on linear optimal cont...
Abstract: In the paper the optimal robust vibration control of flexible rotor supported by the activ...