Buch, Englisch, 190 Seiten, Format (B × H): 155 mm x 235 mm
ISBN: 978-981-950690-3
Verlag: Springer-Verlag GmbH
Fully Actuated Systems (FAS) theory is transforming the landscape of control science, offering groundbreaking advantages in stability, simplicity, and versatility. This "Open access" book is a pioneering exploration of how to harness FAS theory to design fault-tolerant control (FTC) systems capable of overcoming actuator, sensor, and component faults, even in the presence of noise and disturbances. By bridging theoretical innovation and practical application, it sets a new standard for FTC research and development.
Structured as a comprehensive monograph, this "Open access" book presents critical topics, including active FTC, robust adaptive designs, self-healing mechanisms, low-power strategies, and finite-time stabilization—all tailored for FAS models. It also addresses cutting-edge solutions for handling nonaffine systems and the simultaneous management of actuator and sensor faults. Featuring parameterized observer and controller designs, this work provides highly adaptable and easily implementable frameworks for engineers and researchers alike.
Whether you are a graduate student in control engineering, an academic researcher, or a technical professional in automation systems, this "Open access" book equips you with the tools to advance your understanding of FAS and FTC. It not only enriches the FAS theory but also introduces innovative approaches that reduce dependency on model accuracy and improve system resilience.
Zielgruppe
Research
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
"1-Introduction".- "2-Active Fault Tolerant Control for FASs Against Component Faults".- "3-Robust Adaptive Fault Tolerant Control for FASs Against Actuator Faults".- "4-Low Power Fault Tolerant Control for FASs Against Actuator Faults".- "5-Finite Time Fault Tolerant Control for FASs Against Actuator Faults".- "6-Self Healing Fault Tolerant Control for FASs Against Sensor Faults".- "7-Integrated Fault Tolerant Control for FASs Against Actuator and Sensor Faults".- "8-Fault Tolerant Control for Input Nonaffine FASs".- "9-Conclusion".
