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Control of a clamped-free beam by a piezoelectric actuator

Published online by Cambridge University Press:  20 June 2006

Emmanuelle Crépeau  and
Christophe Prieur
Emmanuelle Crépeau
Affiliation:
Bâtiment Fermat, Université de Versailles Saint-Quentin, 45 avenue des États-Unis, 78035 Versailles, France; [email protected]
Christophe Prieur
Affiliation:
LAAS – CNRS, 7 avenue du Colonel Roche, 31077 Toulouse, France; [email protected]
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Abstract

We consider a controllability problem for a beam, clamped at one boundary andfree at the other boundary, with an attached piezoelectric actuator. ByHilbert Uniqueness Method (HUM)and new results on diophantine approximations, weprove that the space of exactly initial controllable data depends on thelocation of the actuator. We also illustrate these results with numericalsimulations.

Keywords

piezoelectric actuatormetallic beamexact controlability.
Type
Research Article
Information
ESAIM: Control, Optimisation and Calculus of Variations , Volume 12 , Issue 3 , July 2006 , pp. 545 - 563
Copyright
© EDP Sciences, SMAI, 2006

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References

C. Baiocchi, V. Komornik and P. Loreti, Ingham type theorems and applications to control theory. Boll. Unione Mat. Ital., Sez. B, Artic. Ric. Mat. 2 (1999) 33–63.
Balamurugan, V. and Narayanan, S., Shell finite element for smart piezoelectric composite plate/shell structures and its application to the study of active vibration control. Finite Elem. Anal. Des. 37 (2001) 713738. CrossRef
J.W.S. Cassels, An introduction to diophantine approximation. Moskau: Verlag 213 S. (1961).
Crépeau, E., Exact boundary controllability of the Boussinesq equation on a bounded domain. Diff. Int. Equ. 16 (2003) 303326.
E. Crépeau, Contrôlabilité exacte d'équations dispersives issues de la mécanique. Thèse de l'Université de Paris-Sud, avalaible at www.math.ursq.fr/~crepeau/PUBLI/these1.html.
P. Destuynder, I. Legrain, L. Castel and N. Richard, Theorical, numerical and experimental discussion of the use of piezoelectric devices for control-structure interaction. Eur. J. Mech., A/Solids 11 (1992) 97–106.
Destuynder, P., A mathematical analysis of a smart-beam which is equipped with piezoelectric actuators. Control Cybern. 28 (1999) 503530.
Fliess, M., Mounier, H., Rouchon, P. and Rudolph, J., Linear systems over Mikusinski operators and control of a flexible beam. ESAIM: Proc. 2 (1997) 183193. CrossRef
P. Germain, Mecanique, Tome II. Ellipses (1996).
Halim, D. and Moheimani, S.O.R., Spatial Resonant Control of Flexible Structures – Applications to a Piezoelectric Laminate Beam. IEEE Trans. Control Syst. Tech. 9 (2001) 3753. CrossRef
Halim, D. and Moheimani, S.O.R., Spatial H 2 control of a piezoelectric laminate beam: experimental implementation. IEEE Trans. Control Syst. Tech. 10 (2002) 533546. CrossRef
Hwang, W.S. and Park, H.C., Finite element modeling of piezoelectric sensors and actuator. AIAA Journal 31 (1993) 930937. CrossRef
A.E. Ingham, Some trigonometrical inequalities with applications to the theory of series. Math. Zeitschr. 41 (1936) 367–379.
S. Lang, Introduction to diophantine approximations. Springer-Verlag (1991).
S. Leleu, Amortissement actif des vibrations d'une structure flexible de type plaque à l'aide de transducteurs piézoélectriques. Thèse, ENS de Cachan (2002).
J.L. Lions, Contrôlabilité exacte, perturbations et stabilisation de systèmes distribués, Tome 1, Contrôlabilité exacte, Collection de recherche en mathématiques appliquées 8 (Masson, Paris), 1988. distribués, Masson, Paris (1988).
L. Meirovitch, Elements of vibration analysis, Düsseldorf, McGraw-Hill (1975).
Rebarber, R., Spectral assignability for distribued parameter systems with unbounded scalar control. SIAM J. Control Optim. 27 (1989) 148169. CrossRef
Rosier, L., Exact boundary controllability for the linear KdV equation – a numerical study. ESAIM: Proc. 4 (1998) 255267.
Rudolph, J. and Woittennek, F., Flatness based boundary control of piezoelectric benders. Automatisierungstechnik 50 (2002) 412421. CrossRef
Smith, R.S., Chu, C.C. and Fanson, J.L., The design of $H_\infty$ controllers for an experimental non-collocated flexible structure Problem. IEEE Trans. Control Syst. Tech. 2 (1994) 101109. CrossRef
S. Tliba and H. Abou-Kandil, $H_\infty$ controller design for active vibration damping of a smart flexible structure using piezoelectric transducers, in 4th Symp. IFAC on Robust Control Design (ROCOND 2003), Milan, Italy (2003).
Tucsnak, M., Regularity and exact controllability for a beam with piezoelectric actuator. SIAM J. Control Optim. 34 (1996) 922930. CrossRef