ID - 131904886 TI - Fault-Tolerant Control for Time-Varying Delayed T-S Fuzzy Systems AU - Sun, Shaoxin AU - Zhang, Huaguang AU - Su, Xiaojie AU - Zhu, Jinyu PY - 2023 SN - 9789819913572 9789819913565 9789819913589 9789819913596 PB - Singapore Springer Nature DB - UniCat KW - Electrical engineering KW - Computer. Automation KW - automatisering KW - systeemtheorie KW - automatische regeltechniek KW - Control engineering. KW - System theory. KW - Control theory. KW - Stochastic processes. KW - Automation. KW - Control and Systems Theory. KW - Systems Theory, Control . KW - Stochastic Systems and Control. KW - System Theory KW - Robotics KW - Automation KW - Science KW - Technology & Engineering UR - https://www.unicat.be/uniCat?func=search&query=sysid:131904886 AB - This book delves into the complexities of fault estimation and fault-tolerant control for nonlinear time-delayed systems. Through the use of multiple-integral observers, it addresses fault estimation and active fault-tolerant control for time-delayed fuzzy systems with actuator faults and both actuator and sensor faults. Additionally, the book explores the use of sliding mode control to solve issues of sensor fault estimation, intermittent actuator fault estimation, and active fault-tolerant control for time-delayed switched fuzzy systems. Furthermore, it presents the use of H∞ guaranteed cost control for both time-delayed switched fuzzy systems and time-delayed switched fuzzy stochastic systems with intermittent actuator and sensor faults. Finally, the problem of delay-dependent finite-time fault-tolerant control for uncertain switched T-S fuzzy systems with multiple time-varying delays, intermittent process faults and intermittent sensor faults is studied. The research on fault estimation and tolerant control has drawn attention from engineers and scientists in various fields such as electrical, mechanical, aerospace, chemical, and nuclear engineering. The book provides a comprehensive framework for this topic, placing a strong emphasis on the importance of stability analysis and the impact of result conservatism on the design and implementation of observers and controllers. It is intended for undergraduate and graduate students interested in fault diagnosis and tolerant control technology, researchers studying time-varying delayed T-S fuzzy systems, and observer/controller design engineers working on system stability applications. ER -