This paper presents a study of the main advantages of inverted decoupling in 2x2 processes. Two simulation examples and an experimental process are used to show these advantages in comparison with simplified decoupling. The study is focused on the following practical advantages: the apparent process is the same as that obtained if one loop changes to manual, bumpless transfer and anti-windup are achieved easily using a feedforward input in the controllers, and abnormalities of secondary loops do not affect the opposite loop. Thanks to them, inverted decoupling may be a good and easy way to improve the performance of industrial TITO processes with interaction problems (when it can be applied)
Accepted manuscriptThis paper presents a new tuning methodology of the main controller of an interna...
The processes in the industry are categorized into a multi-input multi-output (MIMO) system, which c...
Distillation column is a complex multivariable system and exhibits nonlinear dynamic behaviour due ...
This paper presents an extension of the inverted decoupling approach that allows for more flexibilit...
The paper describes a simple and efficient control loop decoupler for TITO (two inputs, two outputs)...
In general, the multiple-input-multiple-output (MIMO) system is the main method of process control i...
In general, the multiple-input-multiple-output (MIMO) system is the main method of process control...
This paper presents a comparative study of simplified, ideal and inverted decoupling. The stability,...
Controller design for unstable processes is relatively difficult when compared to stable processes. ...
Decoupling of a multivariable system is much pronounced control problem in many indus- trial process...
This paper presents a generalized formulation of simplified decoupling to n×n processes that allows ...
Eliminating loop interaction is a critical issue in the control of Multi Input Multi Output (MIMO) s...
This paper presents a new methodology to design multivariable PID controllers based on decoupling co...
Proportional-Integral-Derivative (PID) controllers are commonly used controllers in industry for the...
This paper treats controller design and tuning for systems with two input signals and two output sig...
Accepted manuscriptThis paper presents a new tuning methodology of the main controller of an interna...
The processes in the industry are categorized into a multi-input multi-output (MIMO) system, which c...
Distillation column is a complex multivariable system and exhibits nonlinear dynamic behaviour due ...
This paper presents an extension of the inverted decoupling approach that allows for more flexibilit...
The paper describes a simple and efficient control loop decoupler for TITO (two inputs, two outputs)...
In general, the multiple-input-multiple-output (MIMO) system is the main method of process control i...
In general, the multiple-input-multiple-output (MIMO) system is the main method of process control...
This paper presents a comparative study of simplified, ideal and inverted decoupling. The stability,...
Controller design for unstable processes is relatively difficult when compared to stable processes. ...
Decoupling of a multivariable system is much pronounced control problem in many indus- trial process...
This paper presents a generalized formulation of simplified decoupling to n×n processes that allows ...
Eliminating loop interaction is a critical issue in the control of Multi Input Multi Output (MIMO) s...
This paper presents a new methodology to design multivariable PID controllers based on decoupling co...
Proportional-Integral-Derivative (PID) controllers are commonly used controllers in industry for the...
This paper treats controller design and tuning for systems with two input signals and two output sig...
Accepted manuscriptThis paper presents a new tuning methodology of the main controller of an interna...
The processes in the industry are categorized into a multi-input multi-output (MIMO) system, which c...
Distillation column is a complex multivariable system and exhibits nonlinear dynamic behaviour due ...