Add to ORKGThe present paper presents a comprehensive methodology for the structural active vibration damping using a fuzzy logic control. The proposed application setup consists of a cantilever beam equipped with two pairs of collocated piezoceramic (PZT) actuators and sensors. The investigated carbon composite beam is modeled using a shell 2D-model on Abaqus commercial finite element code. The PZT patches are modelled as additional layers with a coupled electromechanical effect. Experimental data corresponding to the controlled and to the uncontrolled systems are also presented considering fixed frequency and pulse force excitation
Structural analysis and control system design are combined in a unique multiobjective optimization p...
AbstractThis work is devoted to examine the performance of the constraining layer of the active cons...
Summarization: Piezoelectric sensors and actuators are used for vibration control and suppression of...
In this study, it has been shown that active vibration control of the beam can be provided using the...
This paper demonstrates the potential of applying PD-like fuzzy logic controller for active vibratio...
Summarization: Delamination between the layers of smart composite beams is a possible failure type. ...
This paper presents the optimized fuzzy logic controller (FLC) with on-line tuning of scaling factor...
This paper presents the optimized fuzzy logic controller (FLC) with on-line tuning of scaling factor...
Having two stable configurations and no need to any permanent energy sources for remaining in each o...
AbstractIn this paper, active vibration control of a simply supported rectangular plate made from fu...
ABSTRACT: This paper proposes an active vibration control technique, which is based on linear matrix...
In recent years, smart composites have been introduced in the market that open up new possibilities ...
This book focuses on safeguarding civil structures and residents from natural hazards such as earthq...
This paper concerns with the active vibration control for a five story building model using by the F...
The present methodology of active vibration control has been developed for an optimum placement of a...
Structural analysis and control system design are combined in a unique multiobjective optimization p...
AbstractThis work is devoted to examine the performance of the constraining layer of the active cons...
Summarization: Piezoelectric sensors and actuators are used for vibration control and suppression of...
In this study, it has been shown that active vibration control of the beam can be provided using the...
This paper demonstrates the potential of applying PD-like fuzzy logic controller for active vibratio...
Summarization: Delamination between the layers of smart composite beams is a possible failure type. ...
This paper presents the optimized fuzzy logic controller (FLC) with on-line tuning of scaling factor...
This paper presents the optimized fuzzy logic controller (FLC) with on-line tuning of scaling factor...
Having two stable configurations and no need to any permanent energy sources for remaining in each o...
AbstractIn this paper, active vibration control of a simply supported rectangular plate made from fu...
ABSTRACT: This paper proposes an active vibration control technique, which is based on linear matrix...
In recent years, smart composites have been introduced in the market that open up new possibilities ...
This book focuses on safeguarding civil structures and residents from natural hazards such as earthq...
This paper concerns with the active vibration control for a five story building model using by the F...
The present methodology of active vibration control has been developed for an optimum placement of a...
Structural analysis and control system design are combined in a unique multiobjective optimization p...
AbstractThis work is devoted to examine the performance of the constraining layer of the active cons...
Summarization: Piezoelectric sensors and actuators are used for vibration control and suppression of...