Add to ORKGAbstract: The article proposes a method to design a robust controller ensuring the damping ratio of a closed-loop control. The method uses a contour parameterized by the damping ratio in the Nichols plane and the complex non-integer (or fractional) differentiation to compute a transfer function whose open-loop Nichols locus tangents this contour, thus ensuring dynamic performance. The proposed method is applied to a flexible structure (a clamped-free beam with piezoelectric ceramics). The aims of the control loop are to decrease the vibrations and to ensure the damping ratio of the controlled system
Summarization: This paper considers a dynamical model of smart composite beams. Damages in the struc...
This monograph presents design methodologies for (robust) fractional control systems. It shows the r...
Fractional order controllers are receiving an ever-increasing interest from the research community d...
The article proposes a method to design a robust controller ensuring the damping ratio of a closed-l...
This article deals with the problem of the reduction of structural vibrations with isodamping proper...
This article deals with the reduction of structural vibrations. Two approaches are possible to tackl...
Smart structures are obtained by integration of actuators, sensors and controllers into conventional...
The article proposes a frequency-based method to design a controller ensuring dynamic behavior of a ...
Purpose - The purpose of this paper is to detail the design of a fractional controller which was dev...
A robust controller design is proposed for the active suspension system bench-mark problem. The CRON...
2004 International Conference on Computational CyberneticsIn this paper a simple nonlinear, adaptive...
Fractional complex order integrator has been used since 1991 for the design of robust control-system...
The wing is one of the most important parts of an airplane because it ensures stability, sustenance ...
This study presents the design of a fractional-order proportional-integral (FOPI) controller for a m...
In this paper a novel Active Vibration Control (AVC) strategy based on fractional-order calculus is ...
Summarization: This paper considers a dynamical model of smart composite beams. Damages in the struc...
This monograph presents design methodologies for (robust) fractional control systems. It shows the r...
Fractional order controllers are receiving an ever-increasing interest from the research community d...
The article proposes a method to design a robust controller ensuring the damping ratio of a closed-l...
This article deals with the problem of the reduction of structural vibrations with isodamping proper...
This article deals with the reduction of structural vibrations. Two approaches are possible to tackl...
Smart structures are obtained by integration of actuators, sensors and controllers into conventional...
The article proposes a frequency-based method to design a controller ensuring dynamic behavior of a ...
Purpose - The purpose of this paper is to detail the design of a fractional controller which was dev...
A robust controller design is proposed for the active suspension system bench-mark problem. The CRON...
2004 International Conference on Computational CyberneticsIn this paper a simple nonlinear, adaptive...
Fractional complex order integrator has been used since 1991 for the design of robust control-system...
The wing is one of the most important parts of an airplane because it ensures stability, sustenance ...
This study presents the design of a fractional-order proportional-integral (FOPI) controller for a m...
In this paper a novel Active Vibration Control (AVC) strategy based on fractional-order calculus is ...
Summarization: This paper considers a dynamical model of smart composite beams. Damages in the struc...
This monograph presents design methodologies for (robust) fractional control systems. It shows the r...
Fractional order controllers are receiving an ever-increasing interest from the research community d...