Damiano Rotondo - Advances in Gain-Scheduling and Fault Tolerant Control Techniques

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Damiano Rotondo

Advances in Gain-Scheduling and Fault Tolerant Control Techniques

English · Hardback

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This thesis reports on novel methods for gain-scheduling and fault tolerant control (FTC). It begins by analyzing the connection between the linear parameter varying (LPV) and Takagi-Sugeno (TS) paradigms. This is then followed by a detailed description of the design of robust and shifting state-feedback controllers for these systems. Furthermore, it presents two approaches to fault-tolerant control: the first is based on a robust polytopic controller design, while the second involves a reconfiguration of the reference model and the addition of virtual actuators into the loop. Inaddition the thesis offers a thorough review of the state-of-the art in gain scheduling and fault-tolerant control, with a special emphasis on LPV and TS systems.

List of contents

Introduction.- Part.- Advances in gain-scheduling techniques.- Background on gain-scheduling.- Automated generation and comparison of Takagi-Sugeno and polytopic quasi-LPV models.- Robust state-feedback control of uncertain LPV systems.- Shifting state-feedback control of LPV systems.- part 2.- Background on fault tolerant control.- Fault tolerant control of LPV systems using robust state-feedback control.- Fault tolerant control of LPV systems using reconfigured reference model and virtual actuators.- Fault tolerant control of unstable LPV systems subject to actuator saturations and fault isolation delay.- Conclusions and future work.

About the author

Caroline Cox, professor of cultural history at the University of the Arts London, is a leading fashion authority whose work explores the relationship between fashion, beauty, and culture. A lecturer and broadcaster, she is also a cultural trends advisor at Vidal Sassoon. Her previous books include Stiletto, Seduction, and The Handbag.

Summary

This thesis reports on novel methods for gain-scheduling and fault tolerant control (FTC). It begins by analyzing the connection between the linear parameter varying (LPV) and Takagi-Sugeno (TS) paradigms. This is then followed by a detailed description of the design of robust and shifting state-feedback controllers for these systems. Furthermore, it presents two approaches to fault-tolerant control: the first is based on a robust polytopic controller design, while the second involves a reconfiguration of the reference model and the addition of virtual actuators into the loop. Inaddition the thesis offers a thorough review of the state-of-the art in gain scheduling and fault-tolerant control, with a special emphasis on LPV and TS systems.

Product details

Authors Damiano Rotondo
Publisher Springer, Berlin
 
Languages English
Product format Hardback
Released 01.01.2017
 
EAN 9783319629018
ISBN 978-3-31-962901-8
No. of pages 255
Dimensions 159 mm x 244 mm x 19 mm
Weight 572 g
Illustrations XXIII, 255 p. 63 illus., 34 illus. in color.
Series Springer Theses
Springer Theses
Subjects Natural sciences, medicine, IT, technology > Technology > Electronics, electrical engineering, communications engineering

B, Robotics, Artificial Intelligence, Automation, engineering, Control and Systems Theory, Systems Theory, Control, Computational Intelligence, Control, Robotics, Automation, Control engineering, Robotics and Automation, Automatic control engineering, System Theory, Cybernetics & systems theory, Cybernetics and systems theory

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