The first-order plus delay process model with parameters k (gain), τ (time constant) and θ (delay) is the most used representation of process dynamics. This paper has three objectives. First, we derive optimal PI- and PID-settings for this process. Optimality is here defined as the minimum Integrated Absolute Error (IAE) to disturbances for a given robustness level. The robustness level, which is here defined as the sensitivity peak (Ms), may be regarded as a tuning parameter. Second, we compare the optimal IAE-performance with the simple SIMC-rules, where the SIMC tuning parameter τc is adjusted to get a given robustness. The “original” SIMC-rules give a PI-controller for a first-order with delay process, and we find that this SIMC PI-cont...
Delays appear often in all real world engineering systems. Delay systems have the property that the ...
A simple semi-heuristic method for designing PID controllers for time constant models are shown to b...
The ability of proportional integral (PI) and proportional integral derivative (PID) controllers to ...
PID controllers are extensively used in industry. Although many tuning methodologies exist, finding ...
In this paper first we investigate optimal PID control of a double integrating plus delay process an...
A method for tuning PI controller parameters, a prescribed maximum time delay error or a relative ti...
The performance and robustness of the Smith predictor controller has been tested for first and secon...
The ability of proportional integral (PI) and proportional integral derivative (PID) controllers to ...
This thesis consists of two parts. The first part is devoted to analytically deriving proportional-i...
Currently, about 90–95% of generic controllers use the PID algorithm to generate control actions, wh...
Based on a general controller evaluation method, taking both performance and robustness in different...
Some analytical results concerning PI controller tuning based on integrator plus time delay models a...
The aim of this paper is to present analytic tuning rules which are as simple as possible and still ...
A novel process-reaction curve method for tuning PID controllers for (possible) higher order process...
A simple derivation is given for PI Controller parameters for first-order plus delay processes. Anal...
Delays appear often in all real world engineering systems. Delay systems have the property that the ...
A simple semi-heuristic method for designing PID controllers for time constant models are shown to b...
The ability of proportional integral (PI) and proportional integral derivative (PID) controllers to ...
PID controllers are extensively used in industry. Although many tuning methodologies exist, finding ...
In this paper first we investigate optimal PID control of a double integrating plus delay process an...
A method for tuning PI controller parameters, a prescribed maximum time delay error or a relative ti...
The performance and robustness of the Smith predictor controller has been tested for first and secon...
The ability of proportional integral (PI) and proportional integral derivative (PID) controllers to ...
This thesis consists of two parts. The first part is devoted to analytically deriving proportional-i...
Currently, about 90–95% of generic controllers use the PID algorithm to generate control actions, wh...
Based on a general controller evaluation method, taking both performance and robustness in different...
Some analytical results concerning PI controller tuning based on integrator plus time delay models a...
The aim of this paper is to present analytic tuning rules which are as simple as possible and still ...
A novel process-reaction curve method for tuning PID controllers for (possible) higher order process...
A simple derivation is given for PI Controller parameters for first-order plus delay processes. Anal...
Delays appear often in all real world engineering systems. Delay systems have the property that the ...
A simple semi-heuristic method for designing PID controllers for time constant models are shown to b...
The ability of proportional integral (PI) and proportional integral derivative (PID) controllers to ...