Within this work, an advanced control algorithm was proposed to eliminate the non-linear vibrations of the rotor electro-magnetic suspension system. The suggested control algorithm is known as the Adaptive Linear Integral Positive Position Feedback controller (ALIPPF-controller). The ALIPPF-controller is a combination of first-order and second-order filters that are coupled linearly to the targeted non-linear system in order to absorb the excessive vibratory energy. According to the introduced control strategy, the dynamical model of the controlled rotor system was established as six non-linear differential equations that are coupled linearly. The obtained dynamical model was investigated analytically applying the asymptotic analysis, where...
The stabilization of a magnetic suspension system is achieved by using a low-pass filter (LPF) with ...
ABSTRACT This paper presents a novel modeling method and a control system design procedure for a fle...
This paper proposes a frequency-dependent Adaptive Noise Cancellation-based Tracking Controller for ...
Nonlinear vibration control of the twelve-poles electro-magnetic suspension system was tackled in th...
The performance of a nonlinear position-velocity controller in stabilising the lateral vibrations of...
Within this work, the radial Proportional Derivative (PD-) controller along with the eight-poles ele...
Abstract This article presents the Proportional Integral Resonant Controller (PIRC-controller) as a ...
Resonance vibrations (critical speeds) play a significant role in rotor vibration control. Active vi...
Active vibration control methods for rotors were studied in order to develop solutions to enhance ma...
ABSTRACT: Vibration control of a horizontal rotor with an asymmetrical moment of inertia is investig...
The goal of this work was to set up a test environment for active vibration control of rotors, to st...
Rotating machines present some common inherent operational problems, such as the critical amplitude ...
AbstractIn this paper the problem of modeling, analysis and unbalance response control of a rotor sy...
Abstract: The methodology of constructing a conception for controlling rotor position in active magn...
In this paper, we introduced response analysis and controlling the nonlinear vibration of van der po...
The stabilization of a magnetic suspension system is achieved by using a low-pass filter (LPF) with ...
ABSTRACT This paper presents a novel modeling method and a control system design procedure for a fle...
This paper proposes a frequency-dependent Adaptive Noise Cancellation-based Tracking Controller for ...
Nonlinear vibration control of the twelve-poles electro-magnetic suspension system was tackled in th...
The performance of a nonlinear position-velocity controller in stabilising the lateral vibrations of...
Within this work, the radial Proportional Derivative (PD-) controller along with the eight-poles ele...
Abstract This article presents the Proportional Integral Resonant Controller (PIRC-controller) as a ...
Resonance vibrations (critical speeds) play a significant role in rotor vibration control. Active vi...
Active vibration control methods for rotors were studied in order to develop solutions to enhance ma...
ABSTRACT: Vibration control of a horizontal rotor with an asymmetrical moment of inertia is investig...
The goal of this work was to set up a test environment for active vibration control of rotors, to st...
Rotating machines present some common inherent operational problems, such as the critical amplitude ...
AbstractIn this paper the problem of modeling, analysis and unbalance response control of a rotor sy...
Abstract: The methodology of constructing a conception for controlling rotor position in active magn...
In this paper, we introduced response analysis and controlling the nonlinear vibration of van der po...
The stabilization of a magnetic suspension system is achieved by using a low-pass filter (LPF) with ...
ABSTRACT This paper presents a novel modeling method and a control system design procedure for a fle...
This paper proposes a frequency-dependent Adaptive Noise Cancellation-based Tracking Controller for ...