Add to ORKGA frequency domain procedure is proposed for the automatic tuning of proportional integral derivative (PID) controllers. The nonparametric open-loop frequency response function is estimated on-line (in closed loop), and simple discriminatory parameters are obtained, which enable appropriate tuning of the controller. For processes with some prior knowledge of the dynamics, the method removes the need for relay tuning or open-loop step response testing. If there is little or no prior knowledge of the process dynamics, relay or step response testing can be used initially, with the method then being used for the subsequent tuning. As part of the paper, a comprehensive comparison of existing rule-based tuning formulas is given using realistic pl...
To overcome sluggish load disturbance response for industrial/chemical processes with slow time cons...
A PID autotuning algorithm based on relay feedback has the capability of exploring different points ...
Abstract:- Controllers, especially PIDs, are extensively used in industrial practice, and there is a...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
This study proposes new proportional-integral-derivative (PID) controller auto-tuners using frequenc...
Based on some relationships between model- and relay-based tuning, a novel tuning approach is propos...
Based on some relationships between model- and relay-based tuning, a novel tuning approach is propos...
Based on some relationships between model- and relay-based tuning, a novel tuning approach is propos...
Based on some relationships between model- and relay-based tuning, a novel tuning approach is propos...
In this study, we propose a simple autotuning method using proportional controller. A second order p...
Proportional-integral-derivative (PID) controllers are very common in the process industry. In a reg...
We propose a new and simple on-line process identification method for the automatic tuning of the PI...
To overcome sluggish load disturbance response for industrial/chemical processes with slow time cons...
A PID autotuning algorithm based on relay feedback has the capability of exploring different points ...
Abstract:- Controllers, especially PIDs, are extensively used in industrial practice, and there is a...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
A PID autotuning method is presented to exploit the knowledge of multiple frequency response points ...
This study proposes new proportional-integral-derivative (PID) controller auto-tuners using frequenc...
Based on some relationships between model- and relay-based tuning, a novel tuning approach is propos...
Based on some relationships between model- and relay-based tuning, a novel tuning approach is propos...
Based on some relationships between model- and relay-based tuning, a novel tuning approach is propos...
Based on some relationships between model- and relay-based tuning, a novel tuning approach is propos...
In this study, we propose a simple autotuning method using proportional controller. A second order p...
Proportional-integral-derivative (PID) controllers are very common in the process industry. In a reg...
We propose a new and simple on-line process identification method for the automatic tuning of the PI...
To overcome sluggish load disturbance response for industrial/chemical processes with slow time cons...
A PID autotuning algorithm based on relay feedback has the capability of exploring different points ...
Abstract:- Controllers, especially PIDs, are extensively used in industrial practice, and there is a...