Add to ORKGAbstract An iterative controller auto-tuning method based on a frequency criterion is proposed. The frequency criterion is dened as the weighted sum of squared errors between the desired and measured gain margin, phase margin and crossover frequency. A relay feedback test is used to automatically obtain a non-parametric model of the open-loop system in a very important region for control design. The gain and phase margins as well as the crossover frequency are estimated with the non-parametric model using interpolations. The gradient and Hessian of the frequency criterion can be expressed in terms of the derivatives of the open-loop system with respect to the frequency. These derivatives can also be estimated with a good accuracy thanks to...
An adaptive control algorithm based upon on-line estimation of the -180 degree shift frequency and t...
In this study, the authors introduce a range of techniques for the exact design of PID controllers f...
Proportional-integral-derivative (PID) controllers are very common in the process industry. In a reg...
A frequency domain procedure is proposed for the automatic tuning of proportional integral derivativ...
Abstract:- Controllers, especially PIDs, are extensively used in industrial practice, and there is a...
This study proposes new proportional-integral-derivative (PID) controller auto-tuners using frequenc...
This paper introduces a nonparametric frequency-domain scheme for tuning closed-loop systems. A line...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
Most of the existing PID parameters tuning methods are only effective with pre-known accurate system...
In this paper, a relay based on-line controller tuning method for open-loop unstable processes is pr...
A new method for PID controller tuning based on Bode’s integrals is proposed. It is shown that the d...
The relay feedback test (RFT) has become a popular and efficient tool used in process identificatio...
Abstract: In this paper, a method for the auto-tuning of fractional order PIλDµ controllers using re...
A new ’model-free’ iterative controller tuning method is presented for multiple-inputmultiple output...
The paper describes an automatic tuning procedure for a wide class of continuous-time systems withou...
An adaptive control algorithm based upon on-line estimation of the -180 degree shift frequency and t...
In this study, the authors introduce a range of techniques for the exact design of PID controllers f...
Proportional-integral-derivative (PID) controllers are very common in the process industry. In a reg...
A frequency domain procedure is proposed for the automatic tuning of proportional integral derivativ...
Abstract:- Controllers, especially PIDs, are extensively used in industrial practice, and there is a...
This study proposes new proportional-integral-derivative (PID) controller auto-tuners using frequenc...
This paper introduces a nonparametric frequency-domain scheme for tuning closed-loop systems. A line...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
Most of the existing PID parameters tuning methods are only effective with pre-known accurate system...
In this paper, a relay based on-line controller tuning method for open-loop unstable processes is pr...
A new method for PID controller tuning based on Bode’s integrals is proposed. It is shown that the d...
The relay feedback test (RFT) has become a popular and efficient tool used in process identificatio...
Abstract: In this paper, a method for the auto-tuning of fractional order PIλDµ controllers using re...
A new ’model-free’ iterative controller tuning method is presented for multiple-inputmultiple output...
The paper describes an automatic tuning procedure for a wide class of continuous-time systems withou...
An adaptive control algorithm based upon on-line estimation of the -180 degree shift frequency and t...
In this study, the authors introduce a range of techniques for the exact design of PID controllers f...
Proportional-integral-derivative (PID) controllers are very common in the process industry. In a reg...