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Model-Reference Robust Tuning of PID Controllers [electronic resource] / by Victor M. Alfaro, Ramon Vilanova.

By: Alfaro, Victor M [author.].
Contributor(s): Vilanova, Ramon [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Advances in Industrial Control: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2016Edition: 1st ed. 2016.Description: XIX, 192 p. 80 illus. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783319282138.Subject(s): Control engineering | Chemistry, Technical | Industrial engineering | Production engineering | Control and Systems Theory | Industrial Chemistry | Industrial and Production EngineeringAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 629.8312 | 003 Online resources: Click here to access online
Contents:
Introduction -- Two-Degree-of-Freedom Controller Structures -- Control System Evaluation Metrics -- Model-Reference Robust Tuning Design Methodology -- Normalize Controlled Process Models and Controllers -- MoReRT Control of Over-Damped Processes -- MoReRT Control of Inverse-Response Processes -- MoReRT Control of Integrating Processes -- MoReRT Control of Unstable Processes -- MoReRT Design Methodology Extensions.
In: Springer Nature eBookSummary: This book presents a unified methodology for the design of PID controllers that encompasses the wide range of different dynamics to be found in industrial processes. This is extended to provide a coherent way of dealing with the tuning of PID controllers. The particular method at the core of the book is the so-called model-reference robust tuning (MoReRT), developed by the authors. MoReRT constitutes a novel and powerful way of thinking of a robust design and taking into account the usual design trade-offs encountered in any control design problem. The book starts by presenting the different two-degree-of-freedom PID control algorithm variations and their conversion relations as well as the indexes used for performance, robustness and fragility evaluation:the bases of the proposed model. Secondly, the MoReRT design methodology and normalized controlled process models and controllers used in the design are described in order to facilitate the formulation of the different design problems and subsequent derivation of tuning rules. Inlater chapters the application of MoReRT to over-damped, inverse-response, integrating and unstable processes is described. The book ends by presenting three possible extensions of the MoReRT methodology, thereby opening the door to new research developments. In this way, the book serves as a reference and source book for academic researchers who may also consider it as a stimulus for new ideas as well as for industrial practitioners and manufacturers of control systems who will find appropriate advanced solutions to many application problems.
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Introduction -- Two-Degree-of-Freedom Controller Structures -- Control System Evaluation Metrics -- Model-Reference Robust Tuning Design Methodology -- Normalize Controlled Process Models and Controllers -- MoReRT Control of Over-Damped Processes -- MoReRT Control of Inverse-Response Processes -- MoReRT Control of Integrating Processes -- MoReRT Control of Unstable Processes -- MoReRT Design Methodology Extensions.

This book presents a unified methodology for the design of PID controllers that encompasses the wide range of different dynamics to be found in industrial processes. This is extended to provide a coherent way of dealing with the tuning of PID controllers. The particular method at the core of the book is the so-called model-reference robust tuning (MoReRT), developed by the authors. MoReRT constitutes a novel and powerful way of thinking of a robust design and taking into account the usual design trade-offs encountered in any control design problem. The book starts by presenting the different two-degree-of-freedom PID control algorithm variations and their conversion relations as well as the indexes used for performance, robustness and fragility evaluation:the bases of the proposed model. Secondly, the MoReRT design methodology and normalized controlled process models and controllers used in the design are described in order to facilitate the formulation of the different design problems and subsequent derivation of tuning rules. Inlater chapters the application of MoReRT to over-damped, inverse-response, integrating and unstable processes is described. The book ends by presenting three possible extensions of the MoReRT methodology, thereby opening the door to new research developments. In this way, the book serves as a reference and source book for academic researchers who may also consider it as a stimulus for new ideas as well as for industrial practitioners and manufacturers of control systems who will find appropriate advanced solutions to many application problems.

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