Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
In this paper, the MFC sensor and actuators are applied to suppress circular plate vibrations. It is assumed that the system to be regulated is unknown. The mathematical model of the plate was obtained on the base of registration of a system response on a fixed excitation. For the estimation of the system’s behaviour the ARX identification method was used to derive the linear model in the form of a transfer function of the order nine. The obtained model is then used to develop the linear feedback control algorithm for the cancellation of vibration by using the MFC star-shaped actuator (SIMO system). The MFC elements location is dealt with in this study with the use of a laser scanning vibrometer. The control schemes presented have the ability to compute the control effort and to apply it to the actuator within one sampling period. This control scheme is then illustrated through some numerical examples with simulations modelling the designed controller. The paper also describes the experimental results of the designed control system. Finally, the results obtained for the considered plate show that in the chosen frequency limit the designed structure of a closed-loop system with MFC elements provides a substantial vibration suppression.
Wydawca
Czasopismo
Rocznik
Tom
Strony
257--265
Opis fizyczny
Bibliogr. 17 poz., rys., wykr., fot.
Twórcy
autor
- Department of Mechatronics and Control Engineering, University of Rzeszow, Pigonia 1, 35-310 Rzeszow, Poland
autor
- Department of Mechatronics and Control Engineering, University of Rzeszow, Pigonia 1, 35-310 Rzeszow, Poland
Bibliografia
- 1. Bismor D. (2012), LMS Algoritm Step Size Adjustment fo Fast Concergence, Archives of Acoustics, 37, 1, 31–40.
- 2. Bruant I., Gallimard L., Nikoukar S. (2010), Optimal piezoelectric actuator and sensor location for active vibration control, using genetic algorithm, Journal of Sound and Vibration, 329, 10, 1615–1635.
- 3. Hac A., Liu L. (1993), Sensor and Actuator Location in Motion Control of Flexible Structures, Journal of Sound and Vibration, 167, 2, 239–261.
- 4. Kos P., Leniowska L., Mazan D., Sierżęga M. (2013), Active noise and vibration control of circular plate with the use of MFC elements [in Polish], Advances of acoustics, University of Rzeszow Publishing House, Rzeszow 2013 ISBN 83-914391-0-9.
- 5. Leniowska L. (2006), The use of active methods in the suppression of vibration in circular plates [in Polish], University of Rzeszow Publishing House, Rzeszow, ISBN 978-83-7338-194-0.
- 6. Leniowska L. (2008), Influence of Damping and Fluid Loading on the Plate Vibration Control, Archives of Acoustics, 33, 4, 531–540.
- 7. Leniowska L. (2008), Vibration control of a fluid-loaded circular plate via pole placement, Mechanics, 27, 1, 18–24.
- 8. Leniowska L. (2009), Modelling and Vibration Control of Planar Systems by the Use of Piezoelectric Actuators, Archives of Acoustics, 34, 4, 507–520.
- 9. Matlab 2014a Documentation – Mathworks http://www.mathworks.com/help/matlab/
- 10. Mazan D., Leniowska L. (2014), MFC sensors and actuators in active noise and vibration control of flexible structure, Procc. of Forum Acusticum, Krakow, ISSN 2221-3767.
- 11. Neubauer M., Schwarzendahl S.M., Wallaschek J. (2012), A new solution for the determination of the generalized coupling coefficient for piezoelectric systems, Journal of Vibroengineering, 14, 105–110.
- 12. Patel I. (2011), Ceramic Based Intelligent Piezoelectric Energy Harvesting Device, InTech China, 133–150.
- 13. Ramesh Kumar K., Narayanan S. (2008), Active vibration control of beams with optimal placement of piezoelectric sensors/actuator pairs, Smart Materials and Structures, 17.
- 14. Song H.J., Choi Y.T., Wereley N.M., Purekar A.S. (2010), Energy Harvesting Devices using Macro-Fiber Composite Materials, Journal of Intelligent Material Systems and Structures, 21, 647–658.
- 15. S¨oderstr¨om T., Stoica P. (1989), System identification, Prentice Hall Int., London.
- 16. Wilkie W.K., Bryant G.R., High J.W. et al. (2004), NASA Langley Research Center Macro-Fiber Composite Actuator (LaRC-MFC): Technical Overview.
- 17. http://embedded-solutions.pl/
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-523d13bb-769d-44e0-b0d0-fd9a684abcc6