Frequency selective microvibration control for a single plate
Frequency selective microvibration control for a single plate
In recent years, frequency selective controllers were developed to offer an alternative to the well studied and widely used filtered reference least mean square algorithm. The motivation came from the fact, that many disturbance spectra are dominated by a finite set of frequencies (tones). Hence it was concluded that noticeable reduction could be achieved by just controlling the dominant tones. The main advantages of frequency selective controllers are that stability can be shown easily and the controller is of lower order compared to standard FIR filters. Initially, the here presented controllers were tested in sound experiments and excellent behaviour was demonstrated. Then a vibrating plate test rig was acquired and it was possible to move on to examine the control behaviour for microvibrations. A lump mass was fixed to the plate to create an unbalanced behaviour. Furthermore, 4 piezoelectric components were glued to the plate. The arrangement is, that 2 piezoelectric elements are opposite each other on either side of the plate. Different experimental trials were carried out. It was started with driving one piezoelectric element as a disturbance generator and the use of two more as actuator and accelerometer respectively. Model free and model based controllers were implemented. All controller types achieved an overall attenuation for the whole frequency band of more than 10 dB, not only for the controlled frequencies justifying the approach taken.
Meurers, T.
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Veres, S.M.
909c60a0-56a3-4eb6-83e4-d52742ecd304
Aglietti, G.S.
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Rogers, E.
611b1de0-c505-472e-a03f-c5294c63bb72
2003
Meurers, T.
affec6e8-cd07-4350-ab2c-975071e0c3a2
Veres, S.M.
909c60a0-56a3-4eb6-83e4-d52742ecd304
Aglietti, G.S.
e44d0dd4-0f71-4399-93d2-b802365cfb9e
Rogers, E.
611b1de0-c505-472e-a03f-c5294c63bb72
Meurers, T., Veres, S.M., Aglietti, G.S. and Rogers, E.
(2003)
Frequency selective microvibration control for a single plate.
10th International Congress on Sound and Vibration (ICSV10), Stockholm, Sweden.
07 - 10 Jul 2003.
Record type:
Conference or Workshop Item
(Paper)
Abstract
In recent years, frequency selective controllers were developed to offer an alternative to the well studied and widely used filtered reference least mean square algorithm. The motivation came from the fact, that many disturbance spectra are dominated by a finite set of frequencies (tones). Hence it was concluded that noticeable reduction could be achieved by just controlling the dominant tones. The main advantages of frequency selective controllers are that stability can be shown easily and the controller is of lower order compared to standard FIR filters. Initially, the here presented controllers were tested in sound experiments and excellent behaviour was demonstrated. Then a vibrating plate test rig was acquired and it was possible to move on to examine the control behaviour for microvibrations. A lump mass was fixed to the plate to create an unbalanced behaviour. Furthermore, 4 piezoelectric components were glued to the plate. The arrangement is, that 2 piezoelectric elements are opposite each other on either side of the plate. Different experimental trials were carried out. It was started with driving one piezoelectric element as a disturbance generator and the use of two more as actuator and accelerometer respectively. Model free and model based controllers were implemented. All controller types achieved an overall attenuation for the whole frequency band of more than 10 dB, not only for the controlled frequencies justifying the approach taken.
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Published date: 2003
Venue - Dates:
10th International Congress on Sound and Vibration (ICSV10), Stockholm, Sweden, 2003-07-07 - 2003-07-10
Identifiers
Local EPrints ID: 23676
URI: http://eprints.soton.ac.uk/id/eprint/23676
PURE UUID: 128818a7-b085-41f6-a853-6deab54209d9
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Date deposited: 09 Mar 2007
Last modified: 05 Jul 2023 01:32
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Contributors
Author:
T. Meurers
Author:
S.M. Veres
Author:
G.S. Aglietti
Author:
E. Rogers
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