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This book provides recent theoretical results and applications of the consensus control for nonlinear leader-following systems. Combining adaptive control technique, fuzzy logic systems, neural networks with the other control techniques or approaches, this book investigates the consensus control problem of leader-following systems and proposes the corresponding control scheme. This book intends to provide the readers a good understanding on consensus control based on adaptive control technology. This book can serve as a reference for the main research issues and results on nonlinear…mehr
This book provides recent theoretical results and applications of the consensus control for nonlinear leader-following systems. Combining adaptive control technique, fuzzy logic systems, neural networks with the other control techniques or approaches, this book investigates the consensus control problem of leader-following systems and proposes the corresponding control scheme. This book intends to provide the readers a good understanding on consensus control based on adaptive control technology. This book can serve as a reference for the main research issues and results on nonlinear multi-agent systems including leader-following systems for researchers devoting to various areas of control theory, as well as a material for graduate and undergraduate students interested in nonlinear multi-agent systems including leader-following systems and their applications. Some prerequisites for reading this book include nonlinear system theory, matrix theory, mathematics, basic graph theory, and soon.
Dr. Qikun Shen received his B.Sc. degree in computer science and applications from the Chinese University of Mining and Technology, Xuzhou, China, in 1996, an M.Sc. degree in computer science and applications from Yangzhou University, Yangzhou, China, in 2007, and a Ph.D. degree in control theorem and control applications from the College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, China, in 2015. He is currently a professor with the College of Information Engineering, Yangzhou University. He focuses on the research of dynamical systems including multi-agent systems. His current research interests include distributed control, consensus control, fault-tolerant control, adaptive control, fuzzy control, neural networks-based control, and intelligent control. Since 2007, Dr. Shen has published 100 peer-reviewed technical papers in international journals and conferences. He was a recipient of the 2018 Wu Wenjun Science and Technology Award. Since 2020, he is also selected as Elsevier Most Cited Chinese Researchers.
Inhaltsangabe
Chapter 1 Introduction.- Chapter 2 Distributed Cooperative Neural Fault-Tolerant Sliding Mode Control against Actuator Faults.- Chapter 3 Distributed Cooperative Fuzzy Fault-Tolerant Backstepping Control Against Dead-Zone and Saturation.- Chapter 4 Distributed Neural Fault-Tolerant Supervisory Control AgainstBacklash-Like Hysteresis.- Chapter 5 Distributed Fuzzy Fault-Tolerant Output Consensus Control Against Unknown Nonlinear Dead-Zone.- Chapter 6 Adaptive Fault-Tolerant Consensus Control Against Transmission Faults.- Chapter 7 Cooperative Fault-tolerant Neural Control Against Signal Transmission Faults.- Chapter 8 Distributed Fault-tolerant Output-Feedback Control Against Sensor Faults.- Chapter 9 Conclusion and Future Research Directions
Chapter 1 Introduction.- Chapter 2 Distributed Cooperative Neural Fault-Tolerant Sliding Mode Control against Actuator Faults.- Chapter 3 Distributed Cooperative Fuzzy Fault-Tolerant Backstepping Control Against Dead-Zone and Saturation.- Chapter 4 Distributed Neural Fault-Tolerant Supervisory Control AgainstBacklash-Like Hysteresis.- Chapter 5 Distributed Fuzzy Fault-Tolerant Output Consensus Control Against Unknown Nonlinear Dead-Zone.- Chapter 6 Adaptive Fault-Tolerant Consensus Control Against Transmission Faults.- Chapter 7 Cooperative Fault-tolerant Neural Control Against Signal Transmission Faults.- Chapter 8 Distributed Fault-tolerant Output-Feedback Control Against Sensor Faults.- Chapter 9 Conclusion and Future Research Directions
Chapter 1 Introduction.- Chapter 2 Distributed Cooperative Neural Fault-Tolerant Sliding Mode Control against Actuator Faults.- Chapter 3 Distributed Cooperative Fuzzy Fault-Tolerant Backstepping Control Against Dead-Zone and Saturation.- Chapter 4 Distributed Neural Fault-Tolerant Supervisory Control AgainstBacklash-Like Hysteresis.- Chapter 5 Distributed Fuzzy Fault-Tolerant Output Consensus Control Against Unknown Nonlinear Dead-Zone.- Chapter 6 Adaptive Fault-Tolerant Consensus Control Against Transmission Faults.- Chapter 7 Cooperative Fault-tolerant Neural Control Against Signal Transmission Faults.- Chapter 8 Distributed Fault-tolerant Output-Feedback Control Against Sensor Faults.- Chapter 9 Conclusion and Future Research Directions
Chapter 1 Introduction.- Chapter 2 Distributed Cooperative Neural Fault-Tolerant Sliding Mode Control against Actuator Faults.- Chapter 3 Distributed Cooperative Fuzzy Fault-Tolerant Backstepping Control Against Dead-Zone and Saturation.- Chapter 4 Distributed Neural Fault-Tolerant Supervisory Control AgainstBacklash-Like Hysteresis.- Chapter 5 Distributed Fuzzy Fault-Tolerant Output Consensus Control Against Unknown Nonlinear Dead-Zone.- Chapter 6 Adaptive Fault-Tolerant Consensus Control Against Transmission Faults.- Chapter 7 Cooperative Fault-tolerant Neural Control Against Signal Transmission Faults.- Chapter 8 Distributed Fault-tolerant Output-Feedback Control Against Sensor Faults.- Chapter 9 Conclusion and Future Research Directions
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