A new identification method using a proportional controller is proposed for automatic tuning of PID controller. A second-order plus time-delay (SOPTD) model is obtained by a least-squares method in the frequency domain. The suggested method can remove the restriction in applicability of previous methods so that it can be applied to any stable closed-loop response, regardless of the type of the transient such as overdamped, underdamped and inverse response. It is simple so that it does not need any complex techniques such as root finding or optimization method. With the obtained model parameters, the three parameters of PID controller can be calculated from the integral of the time-weighted absolute value of the error (ITAE) tuning rule on-l...
Motivated by the fact that integrating and unstable processes are usually operated in a closed-loop ...
A new self-tuning PI-PID regulator is presented, based on a fixed-structure simplified model of the ...
A frequency domain procedure is proposed for the automatic tuning of proportional integral derivativ...
We propose a new and simple on-line process identification method for the automatic tuning of the PI...
In this study, we propose a simple autotuning method using proportional controller. A second order p...
A new on-line identification method based on the approximation of closed-loop response is proposed t...
We propose a simple on-line process identification method for the automatic design of PID controller...
We propose a new and simple on-line process identification method for the automatic tuning of the PI...
In this paper, we propose an identification method to estimate the second order plus time delay (SOP...
In this paper, we propose an identification method to estimate the second order plus time delay (SOP...
To overcome sluggish load disturbance response for industrial/chemical processes with slow time cons...
This paper presents the use of the results of the shifting method of relay feedback identification f...
Within process industry, and in many other areas, the PID controller is responsible for handling reg...
The paper describes the use of a recently introduced relay shifting method for estimation parameters...
An off-line method of tuning PID controllers used in process control applications is presented. The ...
Motivated by the fact that integrating and unstable processes are usually operated in a closed-loop ...
A new self-tuning PI-PID regulator is presented, based on a fixed-structure simplified model of the ...
A frequency domain procedure is proposed for the automatic tuning of proportional integral derivativ...
We propose a new and simple on-line process identification method for the automatic tuning of the PI...
In this study, we propose a simple autotuning method using proportional controller. A second order p...
A new on-line identification method based on the approximation of closed-loop response is proposed t...
We propose a simple on-line process identification method for the automatic design of PID controller...
We propose a new and simple on-line process identification method for the automatic tuning of the PI...
In this paper, we propose an identification method to estimate the second order plus time delay (SOP...
In this paper, we propose an identification method to estimate the second order plus time delay (SOP...
To overcome sluggish load disturbance response for industrial/chemical processes with slow time cons...
This paper presents the use of the results of the shifting method of relay feedback identification f...
Within process industry, and in many other areas, the PID controller is responsible for handling reg...
The paper describes the use of a recently introduced relay shifting method for estimation parameters...
An off-line method of tuning PID controllers used in process control applications is presented. The ...
Motivated by the fact that integrating and unstable processes are usually operated in a closed-loop ...
A new self-tuning PI-PID regulator is presented, based on a fixed-structure simplified model of the ...
A frequency domain procedure is proposed for the automatic tuning of proportional integral derivativ...