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Abstract

Piezoelectric materials can be used as sensors and actuators for structures that re quire active vibration control and lack sufficient stiffness or passive damping. Efficient implementa tion of these actuators requires that their optimal locations on the structure be determined and that the structure be designed to best utilize the properties of the actuators. A formal optimization pro cedure has been developed to address both of these issues. A gradient based multiobjective optimiza tion technique is used to minimize multiple and conflicting design objectives associated with both the structure and the control system design which is also coupled with the actuator location problem. Objective functions such as the fundamental natural frequency of the structure and energy dissipated by the piezoelectric actuators are included in this study. Constraints are placed on the mass of the structure, displacements and applied voltage to the piezoelectric actuators. Design variables include parameters defining both the control system and the structure. The finite element method is used to model active damping elements which are piezoelectric actuators bonded to a box beam. The op timization procedure is implemented on a flexible 2-D frame.

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References

Banks, H.T. , K. Ito and B.B. King. 1993. "Theoretical and Computational Aspects of Feedback in Structural Systems with Piezoceramic Controllers", Center for Research m Scientific Computation Technical Report CRSC-TR93-2, Raleigh, NC: North Carolina State University.

Banks, H.T. , K. Ito and Y. Wang. 1992."Computational Methods for Identification and Feedback Control in Structures with Piezoceramic Actuators and Sensors", Proc. Conference on Recent Advances in Adaptive and Sensory Materials and Their Applications, C. A. Rogers and R. C. Rogers, eds., Blacksburg, VA: Technomic Pub., VPI & SU, April 27-29, pp. 111-119.

Chattopadhyay, A. and T. McCarthy. 1991. "Multiobjective Design Optimization of Helicopter Rotor Blades with Multidisciplinary Couplings", Structural Systems and Industrial Applications, S. Hernandez and C. A Brebbia, eds., pp. 451-461.

Crawley, E.F. and J. de Luis. 1987. "Use of Piezoelectric Actuators as Elements of Intelligent Structures", AIAA Journal , 25(10):1373-1385.

Dimitriadis, E.K. , C.R. Fuller and C.A. Rogers. 1989. "Piezoelectric Actuators for Distributed Noise and Vibration Excitation of Thin Plates", Proc. 8th ASME Conference on Failure, Prevention, Reliability and Stress Analysis, Montreal, pp. 223-233.

Dosch, J. , D.J. Inman and E. Garcia. 1992. "A Self-Sensing Piezoelectric Actuator for Collocated Control", Journal of Intelligent Material System and Structures, 3:166-185.

Fadel, G.M. , M.F. Riley and J.F. Barthelemy . 1990. "Two Point Exponential Approximation Method for Structural Optimization", Structural Optimization , 2:117-124.

Gibbs, G.P. and C.R. Fuller. 1991. "Excitation of Thin Beams Using Asymmetric Piezoelectric Actuators", Proc. 121st Meeting of the ASA, Baltimore, MD, April, 1991.

Hanagud, S. , M.W. Obal and A.J. Calise. 1992 "Optimal Vibration Control by the Use of Piezoceramic Sensors and Actuators," Journal of Guidance, Control, and Dynamics, 15(5):1199-1205.

10.

Heeg, J. 1991. "An Analytical and Experimental Study to Investigate Flutter Suppression via Piezoelectric Actuation", Master's Thesis, George Washington University.

11.

Horner, G. and J. Walz. 1985. "A Design Methodology for Determining Actuator Gains in Spacecraft Vibration Control", Proc. 26th AIAA/ASME/ASCE/ASC Structures, Structural Dynamics and Materials Conference, Orlando, FL, April 15 -17, 1985, pp. 143-151

12.

Onoda, J. and Y. Hanawa. 1992. "Optimal Locations of Actuators for Statistical Static Shape Control of Large Space Structures: A Comparison of Approaches", Proc. 31st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, Washington, DC April 13-15, 1992, pp. 2788-2795.

13.

1993 Piezo Systems Inc. , Product Catalog.

14.

Sepulveda, A.E. , I.M. Jin and L.A. Schmit, Jr. 1992. "Optimal Placement of Active Elements in Control Augmented Structural Synthesis", Proc. 31st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, Washington, DC: April 13-15, 1992, 2768-2787

15.

Vanderplaats, G.N. 1973. "CONMIN-A FORTRAN Program for Constrained Function Minimization ", User's Manual, NASA TMX-62,282.

A Multiobjective Design Optimization Procedure for Control of Structures Using Piezoelectric Materials

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