Add to ORKGA nonlinear robust control is developed for active mass damper system subject to external perturbation. This nonlinear controller is composed by the sum of a linear term plus a chattering component. The linear term is designed using linear matrix inequality (LMI) theory. Then, the chattering term is added to improve controller performance. Lyapunov theory is used to validate our control design. According with experiments, where a flexible two levels building with active mass damper and external perturbation is employed, they show that this chattering term improves controller performance. However, when a fault occurs, this chattering term is complaining
Distributed control systems for vibration control of large structures involve a large number of actu...
In this study, a robust adaptive controller is designed to be used in an active tuned mass damper sy...
We present a new design strategy that makes it possible to synthesize decentralized output-feedback ...
An experimental study on controlled faulty perturbed flexible structures is developed using an activ...
An experimental study on controlled faulty perturbed flexible structures is developed using an activ...
ABSTRACT: The study of algorithms for active vibration control in smart structures is an area of int...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
The study of algorithms for active vibration control in smart structures is an area of interest, mai...
This paper presents a novel controller design strategy, which allows computing static output-feedbac...
Distributed control systems for vibration control of large structures involve a large number of actu...
The study of algorithms for active vibration control in smart structures is an area of interest, mai...
Distributed control systems for vibration control of large structures involve a large number of actu...
In this study, a robust adaptive controller is designed to be used in an active tuned mass damper sy...
We present a new design strategy that makes it possible to synthesize decentralized output-feedback ...
An experimental study on controlled faulty perturbed flexible structures is developed using an activ...
An experimental study on controlled faulty perturbed flexible structures is developed using an activ...
ABSTRACT: The study of algorithms for active vibration control in smart structures is an area of int...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
This paper discusses the design of the damping control of FACTS with multiple operating points. The ...
The study of algorithms for active vibration control in smart structures is an area of interest, mai...
This paper presents a novel controller design strategy, which allows computing static output-feedbac...
Distributed control systems for vibration control of large structures involve a large number of actu...
The study of algorithms for active vibration control in smart structures is an area of interest, mai...
Distributed control systems for vibration control of large structures involve a large number of actu...
In this study, a robust adaptive controller is designed to be used in an active tuned mass damper sy...
We present a new design strategy that makes it possible to synthesize decentralized output-feedback ...