Mathematics Subject Classification: 26A33; 93C15, 93C55, 93B36, 93B35, 93B51; 03B42; 70Q05; 49N05This paper proposes a novel method to design an H∞ -optimal fractional order PID (FOPID) controller with ability to control the transient, steady-state response and stability margins characteristics. The method uses particle swarm optimization algorithm and operates based on minimizing a general cost function. Minimization of the cost function is carried out subject to the H∞ -norm; this norm is also included in the cost function to achieve its lower value. The method is applied to a phase-locked-loop motor speed system and an electromagnetic suspension system as two examples to illustrate the design procedure and verify performance of the propo...
In this paper a set of optimally balanced tuning rules for fractional-order proportional-integral-de...
This paper deals with the design of a control system based on fractional order models and fractional...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
Abstract-PID controller is the most widely used controller in industry for control applications due ...
This paper deals with an optimal design of a new type Variable coefficient Fractional Order PID (V-F...
As a servo system to isolate disturbance or track trajectory, stabilized platform requires high-qual...
In this paper a novel design method for determining fractional order PID (PIλDµ) controller paramete...
Due to the required different speeds and important role of direct current (DC) motors in laboratorie...
This paper proposes the fractional-order proportional integral derivative (FOPID) controller, as a s...
A simplified fractional order PID (FOPID) controller is proposed by the suitable definition of the p...
A fractional order PID (FOPID) controller, which is suitable for control system designing for being ...
In this thesis work, a novel approach for the design of a fractional order proportional integral der...
In this paper, a PSO based fractional order PID (FOPID) controller is proposed for concentration con...
In this paper, several feedback control methods are proposed for some real-life industrial processes...
Copyright © 2019 ASME. This paper presents a new parameters optimization approach for fractional ord...
In this paper a set of optimally balanced tuning rules for fractional-order proportional-integral-de...
This paper deals with the design of a control system based on fractional order models and fractional...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
Abstract-PID controller is the most widely used controller in industry for control applications due ...
This paper deals with an optimal design of a new type Variable coefficient Fractional Order PID (V-F...
As a servo system to isolate disturbance or track trajectory, stabilized platform requires high-qual...
In this paper a novel design method for determining fractional order PID (PIλDµ) controller paramete...
Due to the required different speeds and important role of direct current (DC) motors in laboratorie...
This paper proposes the fractional-order proportional integral derivative (FOPID) controller, as a s...
A simplified fractional order PID (FOPID) controller is proposed by the suitable definition of the p...
A fractional order PID (FOPID) controller, which is suitable for control system designing for being ...
In this thesis work, a novel approach for the design of a fractional order proportional integral der...
In this paper, a PSO based fractional order PID (FOPID) controller is proposed for concentration con...
In this paper, several feedback control methods are proposed for some real-life industrial processes...
Copyright © 2019 ASME. This paper presents a new parameters optimization approach for fractional ord...
In this paper a set of optimally balanced tuning rules for fractional-order proportional-integral-de...
This paper deals with the design of a control system based on fractional order models and fractional...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...