Distributed piezoelectric-polymer active vibration control of a cantilever beam

Bailey, Thomas Lee; Hubbard, James E.

doi:10.2514/3.20029

Cited by 1,220 publications

(544 citation statements)

References 5 publications

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“…Such structures are subjected to dynamic loads and their control is of paramount importance in safe and smooth functioning of the system. Bailey and Hubbard [1] proposed the use of distributed piezoelectric transducers in active vibration control of beams. Anderson and Hagood [2] discussed issues related to simultaneous sensing and actuation in structural control.…”

Section: Introductionmentioning

confidence: 99%

Active vibration control of piezolaminated stiffened plates

Mukherjee

Joshi

Ganguli

2002

Composite Structures

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The aim of this work is to present active vibration control of stiffened plates. A stiffened plate finite element with piezoelectric effects is formulated. The characteristic feature of the stiffener is that it can have any shape in plan and need not pass through the nodal lines of the finite element mesh. The coupling between the direct and the converse piezoelectric effects is neglected for simplicity. A velocity feedback algorithm is employed in the active control. Numerical examples for vibration control of isotropic and orthotropic stiffened plates have been presented.

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Section: Introductionmentioning

confidence: 99%

Active vibration control of piezolaminated stiffened plates

Mukherjee

Joshi

Ganguli

2002

Composite Structures

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“…To illustrate the formulation of boundary control as bounded control in an appropriate space we recall the example used in [6]. It was motivated by the SCOLErelated model 1 from Bailey and Hubbard [1] of one of the arms of a satellite, consisting of a central hub with four flexible beams attached to it.…”

Section: Introductionmentioning

confidence: 99%

Stabilization of collocated systems by nonlinear boundary control

Curtain

Zwart

2016

Systems & Control Letters

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“…There are numerous control techniques, both classical and modern, which can cope with the vibration suppression of flexible structures with piezoelectric ceramics (PZT) patches as distributed sensors and actuators [1][2][3][4][5][6][7][8][9][10][11][12]. These techniques are involved in the application of smart materials, featuring piezoelectric actuators and sensors, to the flexible structure to suppress unwanted vibration.…”

Section: Introductionmentioning

confidence: 99%

“…To design piezoelectric smart structures for active vibration control, both structural dynamics and control theory need to be considered. Bailey and Hubbard [3] proposed constant gain and constant amplitude control algorithms to perform vibration control of piezoelectric cantilever beam. Fuller et al [4] developed a dynamics model for piezoelectric flexible beam structures.…”

Section: Introductionmentioning

confidence: 99%

Experimental Comparison Research on Active Vibration Control for Flexible Piezoelectric Manipulator Using Fuzzy Controller

Wei

Qiu

Han

et al. 2009

J Intell Robot Syst

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Space manipulators are flexible structures. Vibration problem will be unavoidable due to motion or external disturbance excitation. Model based control methods will not maintain the required accuracy because of the existence of nonlinear factors and parameter uncertainties. To solve these problems, fuzzy logic control laws with different membership function groups are adopted to suppress vibrations of a flexible smart manipulator using collocated piezoelectric sensor/actuator pair. Also, dual-mode controllers combining fuzzy logic and proportional integral control are designed, for suppressing the lower amplitude vibration near the equilibrium point significantly. Experimental comparison research is conducted, using fuzzy control algorithms and the dual-mode controllers with different membership functions. The experimental results show that the adopted fuzzy control algorithms can substantially suppress the larger amplitude vibration; and the dual-mode controllers can also damp out the lower amplitude vibration significantly. The experimental results demonstrate that the proposed fuzzy controllers and dual-mode controllers can suppress vibration effectively, and the optimal placement is feasible.

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Distributed piezoelectric-polymer active vibration control of a cantilever beam

Cited by 1,220 publications

References 5 publications

Active vibration control of piezolaminated stiffened plates

Active vibration control of piezolaminated stiffened plates

Stabilization of collocated systems by nonlinear boundary control

Experimental Comparison Research on Active Vibration Control for Flexible Piezoelectric Manipulator Using Fuzzy Controller

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