A predictive PI (proportional-integral) controller with dead-time compensation is described. Its advantage compared with previous dead-time compensating controllers is that although it also contains five parameters, only three are adjusted by the operator, namely, the gain, the integral time and the dead time. The controller is also suited for processes with varying dead times. Conceptually, the new controller can be considered as a special case of the Smith predictor or the Morari-Zafiriou IM
In this work a new paradigm for designing controllers for poorly modeled plants with significant dea...
This paper describes an automatic tuning procedure for dead-time compensating controllers. A first o...
This paper describes an easy-to-use PI controller with dead-time compensation that presents robust b...
An industrial PI controller with dead-time compensation is presented. The advantage of the new contr...
Two generalizations to a generalised predictive control algorithm are developed. The first applies t...
[EN] This paper presents an analysis of dead-time compensating controllers for processes exhibiting ...
The Proportional Integral Derivative Controller is a typical controller implemented frequently in ma...
This paper presents an interactive tool which allows to study the problem of systems with large dela...
Abstract-This paper derives proportional-integral (PI) control algorithms for first-order plants wit...
It is shown that the classical controllers for dead-time systems, known as Smith predictors, provide...
A Smith predictor (SP) fuzzy logic (FL) based controller for processes with long dead time is propos...
To address the difficulty of controlling industrial processes with long time delay, a novel design o...
This paper presents an interactive tool which allows to study the problem of systems with delays. Th...
The PI/PID controller is the most used controller in industry. However, for processes with large tim...
Abstract The problem of controlling delayed systems has widely been studied in the control community...
In this work a new paradigm for designing controllers for poorly modeled plants with significant dea...
This paper describes an automatic tuning procedure for dead-time compensating controllers. A first o...
This paper describes an easy-to-use PI controller with dead-time compensation that presents robust b...
An industrial PI controller with dead-time compensation is presented. The advantage of the new contr...
Two generalizations to a generalised predictive control algorithm are developed. The first applies t...
[EN] This paper presents an analysis of dead-time compensating controllers for processes exhibiting ...
The Proportional Integral Derivative Controller is a typical controller implemented frequently in ma...
This paper presents an interactive tool which allows to study the problem of systems with large dela...
Abstract-This paper derives proportional-integral (PI) control algorithms for first-order plants wit...
It is shown that the classical controllers for dead-time systems, known as Smith predictors, provide...
A Smith predictor (SP) fuzzy logic (FL) based controller for processes with long dead time is propos...
To address the difficulty of controlling industrial processes with long time delay, a novel design o...
This paper presents an interactive tool which allows to study the problem of systems with delays. Th...
The PI/PID controller is the most used controller in industry. However, for processes with large tim...
Abstract The problem of controlling delayed systems has widely been studied in the control community...
In this work a new paradigm for designing controllers for poorly modeled plants with significant dea...
This paper describes an automatic tuning procedure for dead-time compensating controllers. A first o...
This paper describes an easy-to-use PI controller with dead-time compensation that presents robust b...