Add to ORKGSummarization: This paper deals with the incorporation of model uncertainties and the usage of ro- bust control techniques in active vibration suppression of smart structures. The used advanced control techniques are based on the H∞ criterion and m-analysis. Both techniques allow us to take into account the worst case scenario of uncertain disturbances and noise of the system. The presented results demonstrate remarkable efficiency of the proposed techniques.Presented on
The vibration reduction in mechanical systems can be performed by means of active control strategies...
ABSTRACT: The study of algorithms for active vibration control in smart structures is an area of int...
Abstract. The paper presents active control of smart structures within a focused frame of piezoelect...
Summarization: In this paper we apply and investigate the technology of robust control in smart stru...
Challenging issues arise in the design of control strategies for piezoelectric smart structures. Pie...
This thesis presents a contribution to the improvement of modeling and control methodologies for sma...
In this paper, a disturbance rejection (DR) control with H∞ optimized observer is developed for vibr...
Summarization: A “smart” structure is one that monitors itself and its environment in order to respo...
For successful development of smart structural systems to control structural vibrations, the actuato...
This project involves the study of active vibration control of the Stewart Platform using robust con...
The piezoelectric smart structures, which can be labeled as the cream of the crop of smart structure...
The active suppression of structural vibration is normally achieved by either feedforward or feedbac...
This study presents an active vibration control technique applied to a smart beam. The smart beam co...
Summarization: A mathematical formulation and finite element model for the vibration suppression of ...
The research described in this paper on the application of active and semi-active structural control...
The vibration reduction in mechanical systems can be performed by means of active control strategies...
ABSTRACT: The study of algorithms for active vibration control in smart structures is an area of int...
Abstract. The paper presents active control of smart structures within a focused frame of piezoelect...
Summarization: In this paper we apply and investigate the technology of robust control in smart stru...
Challenging issues arise in the design of control strategies for piezoelectric smart structures. Pie...
This thesis presents a contribution to the improvement of modeling and control methodologies for sma...
In this paper, a disturbance rejection (DR) control with H∞ optimized observer is developed for vibr...
Summarization: A “smart” structure is one that monitors itself and its environment in order to respo...
For successful development of smart structural systems to control structural vibrations, the actuato...
This project involves the study of active vibration control of the Stewart Platform using robust con...
The piezoelectric smart structures, which can be labeled as the cream of the crop of smart structure...
The active suppression of structural vibration is normally achieved by either feedforward or feedbac...
This study presents an active vibration control technique applied to a smart beam. The smart beam co...
Summarization: A mathematical formulation and finite element model for the vibration suppression of ...
The research described in this paper on the application of active and semi-active structural control...
The vibration reduction in mechanical systems can be performed by means of active control strategies...
ABSTRACT: The study of algorithms for active vibration control in smart structures is an area of int...
Abstract. The paper presents active control of smart structures within a focused frame of piezoelect...