The paper deals with an analysis of automatic control system with continuous and discrete PID controllers. A method of tuning the parameters of the continuous controller is presented, which is optimal according to the ITAE criterion. The behavior of control systems with discrete controllers whose parameters were tuned using the mentioned method are described. The impact of changes in the sampling period of controlled signal on the control quality is shown. Changes of the values of optimal parameters of discrete PID controllers in relation to changes of the sampling rate of controlled signal are characterized
Two procedures for the definition of an autotuning algorithm for event-based proportional-integral (...
Applying digital self-tuning PID (proportional-integral-derivative) control system for the continuou...
We study a sampled-data implementation of the PID controller. Since the derivative is hard to measur...
The paper deals with an analysis of automatic control system with continuous and discrete PID contro...
Currently, about 90–95% of generic controllers use the PID algorithm to generate control actions, wh...
Abstract: Proportional- Integral- Derivative (PID) controllers are widely used in industrial control...
This paper demonstrates an efficient method of tuning the PID controller parameters using the optimi...
This thesis consists of two parts. The first part is devoted to analytically deriving proportional-i...
A method to choose controller gains for a PID controller to produce a fast response with no overshoo...
In today’s industrial landscape, the necessity and usefulness of computer systems are undeniable. An...
In this thesis we investigate the problem of optimal control, in the domain of digital controllers. ...
Two main approaches on sampled control are compared, the descrete equivalent design and the direct d...
One of the most basic functions of control engineers is tuning of controllers. There are always seve...
An auto-tuning and adaptive PID controller based on the identification of a second-order discrete-ti...
A procedure for tuning PID controllers with SSOD sampling for FOPTD systems is proposed. It is based...
Two procedures for the definition of an autotuning algorithm for event-based proportional-integral (...
Applying digital self-tuning PID (proportional-integral-derivative) control system for the continuou...
We study a sampled-data implementation of the PID controller. Since the derivative is hard to measur...
The paper deals with an analysis of automatic control system with continuous and discrete PID contro...
Currently, about 90–95% of generic controllers use the PID algorithm to generate control actions, wh...
Abstract: Proportional- Integral- Derivative (PID) controllers are widely used in industrial control...
This paper demonstrates an efficient method of tuning the PID controller parameters using the optimi...
This thesis consists of two parts. The first part is devoted to analytically deriving proportional-i...
A method to choose controller gains for a PID controller to produce a fast response with no overshoo...
In today’s industrial landscape, the necessity and usefulness of computer systems are undeniable. An...
In this thesis we investigate the problem of optimal control, in the domain of digital controllers. ...
Two main approaches on sampled control are compared, the descrete equivalent design and the direct d...
One of the most basic functions of control engineers is tuning of controllers. There are always seve...
An auto-tuning and adaptive PID controller based on the identification of a second-order discrete-ti...
A procedure for tuning PID controllers with SSOD sampling for FOPTD systems is proposed. It is based...
Two procedures for the definition of an autotuning algorithm for event-based proportional-integral (...
Applying digital self-tuning PID (proportional-integral-derivative) control system for the continuou...
We study a sampled-data implementation of the PID controller. Since the derivative is hard to measur...