Experimental evaluation of a piezoelectric vibration absorber using a simplified fuzzy controller in a cantilever beam

## 1.  Recently, an increasingly insatiable demand in the international marketplaces for higher-performance in structural and mechanical systems at various fields such as aerospace, defense, automotive and manufacturing industries has evolved ultra-advanced structures, so called smart s

This paper is concerned with the control of flexural waves in a beam using a tuned vibration absorber (TVA). The TVA may be located in the farfield or the nearfield of a time harmonic point force and it can be positioned to control both the downstream-transmitted power and that reflected upstream. A

The main goal of this paper is to develop a novel approach for achieving a high-performance active piezoelectric absorber of a smart panel using adaptive networks in hierarchical fuzzy control. Due to the adaptive capability of fuzzy inference systems, its applications to adaptive control and learni

The problem of feedback control of vibrations in a micromachined cantilever beam with nonlinear electrostatic actuators is considered. Various forms of nonlinear feedback controls depending on localized spatial averages of the beam velocity and displacement near the beam tip are derived by consideri