In this paper, a One-Degree-of-Freedom PI controller is optimized using the model reference tuning approach for a Second Order Inverse Response and Dead Time Process operating as a servo control. In addition, a graphic user interface tool that computes the PI optimized controller parameters is presented, also showing the response of the control system operating as a servo-control (the optimized one) and the associated response for the regulatory-control case.Universidad de Costa Rica/[731-B4-213]/UCR/Costa RicaUniversidad de Costa Rica/[322-B4-218]/UCR/Costa RicaConsejo Interinstitucional de Ciencia y Tecnología/[DPI2013-47825-C3-1-R]/CICYT/EspañaUCR::Vicerrectoría de Investigación::Unidades de Investigación::Ingeniería::Instituto Investiga...
The article deals with a computer-supported design of optimal and robust proportional-integral-deriv...
In today’s industrial landscape, the necessity and usefulness of computer systems are undeniable. An...
The present study proposes a new design method for a proportional-integral-derivative (PID) control ...
This work addresses a set of tuning rules for PID controllers based on Internal Model Control (IMC) ...
In the paper we present tuning rules for PI and PID controllers and the first order plus dead time (...
This book presents a unified methodology for the design of PID controllers that encompasses the wide...
PID controllers have been widely used in process control industries because of its implementational ...
Tuning nonlinear controllers which can be easily implemented in real-time applications is a challeng...
In this paper new tuning rules for Proportional Integral Derivative (PID) are presented, which are b...
This paper describes an automatic tuning procedure for dead-time compensating controllers. A first o...
A novel process-reaction curve method for tuning PID controllers for (possible) higher order process...
In this paper we present a new method for tuning Proportional Integral (PI) controllers from experim...
PID controllers are extensively used in industry. Although many tuning methodologies exist, finding ...
The ability of PI and PID controllers to compensate many practical processes has led to their wide a...
An auto-tuning and adaptive PID controller based on the identification of a second-order discrete-ti...
The article deals with a computer-supported design of optimal and robust proportional-integral-deriv...
In today’s industrial landscape, the necessity and usefulness of computer systems are undeniable. An...
The present study proposes a new design method for a proportional-integral-derivative (PID) control ...
This work addresses a set of tuning rules for PID controllers based on Internal Model Control (IMC) ...
In the paper we present tuning rules for PI and PID controllers and the first order plus dead time (...
This book presents a unified methodology for the design of PID controllers that encompasses the wide...
PID controllers have been widely used in process control industries because of its implementational ...
Tuning nonlinear controllers which can be easily implemented in real-time applications is a challeng...
In this paper new tuning rules for Proportional Integral Derivative (PID) are presented, which are b...
This paper describes an automatic tuning procedure for dead-time compensating controllers. A first o...
A novel process-reaction curve method for tuning PID controllers for (possible) higher order process...
In this paper we present a new method for tuning Proportional Integral (PI) controllers from experim...
PID controllers are extensively used in industry. Although many tuning methodologies exist, finding ...
The ability of PI and PID controllers to compensate many practical processes has led to their wide a...
An auto-tuning and adaptive PID controller based on the identification of a second-order discrete-ti...
The article deals with a computer-supported design of optimal and robust proportional-integral-deriv...
In today’s industrial landscape, the necessity and usefulness of computer systems are undeniable. An...
The present study proposes a new design method for a proportional-integral-derivative (PID) control ...