To improve performances of a multi-input multi-output (MIMO) active vibration isolation system, the possibilities of dynamic decoupling are studied. This to avoid spill-over of disturbances from one controlled direction toward another via cross-coupling. The decoupling structure consists of two parts. For course decoupling a set of low-pass filters is selected and tuned about the coupled suspension-mode resonances. For fine decoupling a finite impulse response (FIR) decoupling structure is added for machine-specific tunings. The FIR coefficients are obtained by data-based optimization in which perturbed-parameter experiments are conducted to obtain the required gradients. The optimization maps the single-input single-output (SISO) low-pass ...
In this paper, a switching control approach for active vibration isolation systems is proposed. The ...
This paper proposes a novel control strategy for six degrees-of-freedom active vibration isolation t...
Shock and vibration isolation continues to be an area of great interest to structural designers and ...
To improve performances of a multi-input multi-output (MIMO) active vibration isolation system, the ...
To minimize cross-talk in high-precision motion systems, the possibilities of data-based dynamic dec...
One of the principal objectives of vibration isolation technology is to isolate sensitive equipment ...
To reduce cross coupling in the control of multi-input multi-output (MIMO) motion systems having dia...
This paper proposes a multi-input multi-output (MIMO) disturbance feedforward controller to improve ...
Within the framework of tracking controller design for an automotive vibration test rig, a new contr...
In many engineering applications the reduction of unwanted vibrations is required and therefore vibr...
This paper demonstrates a new idea for vibration isolation. Two different techniques of frequency re...
Within the framework of the tracking problem on an automotive vibration test rig, a new control stra...
Passive systems for the isolation of machinery vibrations can be supplemented by active techniques. ...
In this paper, a switching control approach for active vibration isolation systems is proposed. The ...
This paper proposes a novel control strategy for six degrees-of-freedom active vibration isolation t...
Shock and vibration isolation continues to be an area of great interest to structural designers and ...
To improve performances of a multi-input multi-output (MIMO) active vibration isolation system, the ...
To minimize cross-talk in high-precision motion systems, the possibilities of data-based dynamic dec...
One of the principal objectives of vibration isolation technology is to isolate sensitive equipment ...
To reduce cross coupling in the control of multi-input multi-output (MIMO) motion systems having dia...
This paper proposes a multi-input multi-output (MIMO) disturbance feedforward controller to improve ...
Within the framework of tracking controller design for an automotive vibration test rig, a new contr...
In many engineering applications the reduction of unwanted vibrations is required and therefore vibr...
This paper demonstrates a new idea for vibration isolation. Two different techniques of frequency re...
Within the framework of the tracking problem on an automotive vibration test rig, a new control stra...
Passive systems for the isolation of machinery vibrations can be supplemented by active techniques. ...
In this paper, a switching control approach for active vibration isolation systems is proposed. The ...
This paper proposes a novel control strategy for six degrees-of-freedom active vibration isolation t...
Shock and vibration isolation continues to be an area of great interest to structural designers and ...