Classical fractional order controller tuning techniques usually consider the frequency domain specifications (phase margin, gain crossover frequency, iso-damping) and are based on knowledge of a process model, as well as solving a system of nonlinear equations to determine the controller parameters. In this paper, a novel auto-tuning method is used to tune a fractional order PI controller. The advantages of the proposed auto-tuning method are two-fold: There is no need for a process model, neither to solve the system of nonlinear equations. The tuning is based on defining a forbidden region in the Nyquist plane using the phase margin requirement and determining the parameters of the fractional order controller such that the loop frequency r...
This article proposes an adaptive fractional feedback control using recursive least squares algorith...
This paper investigates the application of fractional-order PID controllers in the velocity control ...
This paper presents a calibration approach of a manipulator robot controller using an auto-tuning te...
Classical fractional order controller tuning techniques usually consider the frequency domain specif...
Classical fractional order controller tuning techniques usually consider the frequency domain specif...
Fractional order controllers are widely used in the robust control field. As a generalization of the...
Abstract: In this paper, a method for the auto-tuning of fractional order PIλDµ controllers using re...
Many processes in industry are highly-coupled Multiple-Input Multiple-Output (MIMO) systems. In this...
Fractional order PI/PD controllers are generalizations of the well-known PI/PD controllers with an e...
This paper deals with the design of fractional order PI²Dμ controllers, in which the orders of the i...
In this paper, two methods to tune a fractional-order PI (lambda) D (mu) controller for a mechatroni...
Abstract: The application of fractional controller attracts more attention in the recent years. In t...
Accurate process modeling is occasionally difficult. In such situations, auto-tuning methods enable ...
The preferred controller design technique in industrial applications is based on autotuning procedur...
The presence of disturbances in practical control engineering applications is unavoidable. At the sa...
This article proposes an adaptive fractional feedback control using recursive least squares algorith...
This paper investigates the application of fractional-order PID controllers in the velocity control ...
This paper presents a calibration approach of a manipulator robot controller using an auto-tuning te...
Classical fractional order controller tuning techniques usually consider the frequency domain specif...
Classical fractional order controller tuning techniques usually consider the frequency domain specif...
Fractional order controllers are widely used in the robust control field. As a generalization of the...
Abstract: In this paper, a method for the auto-tuning of fractional order PIλDµ controllers using re...
Many processes in industry are highly-coupled Multiple-Input Multiple-Output (MIMO) systems. In this...
Fractional order PI/PD controllers are generalizations of the well-known PI/PD controllers with an e...
This paper deals with the design of fractional order PI²Dμ controllers, in which the orders of the i...
In this paper, two methods to tune a fractional-order PI (lambda) D (mu) controller for a mechatroni...
Abstract: The application of fractional controller attracts more attention in the recent years. In t...
Accurate process modeling is occasionally difficult. In such situations, auto-tuning methods enable ...
The preferred controller design technique in industrial applications is based on autotuning procedur...
The presence of disturbances in practical control engineering applications is unavoidable. At the sa...
This article proposes an adaptive fractional feedback control using recursive least squares algorith...
This paper investigates the application of fractional-order PID controllers in the velocity control ...
This paper presents a calibration approach of a manipulator robot controller using an auto-tuning te...