Integrated and Consistent Active Control Formulation and Piezotransducer Position Optimization of Plate Structures considering Spillover Effects

Abstract EN

This study addresses new formulation for active vibration control of plates by optimal locations of attached piezotransducers.

Free vibrations are solved by Rayleigh-Ritz and transient by assumed modes methods.

Optimal orientations of patches are determined by spatial controllability/observability, as well as residual modes to reduce spillover.

These criteria are used to achieve optimal fitness function defined for genetic algorithm to find optimal locations.

To control vibrations, negative velocity feedback control is designed.

Results indicate that, by locating piezopatches at optimal positions, depreciation rate increases and amplitudes of vibrations reduce effectively.

The effect of number of piezodevices is analyzed.