Event-Triggered Active Disturbance Rejection Control

Introduction.- Discrete-time extended state observer.- Event-triggered extended state observer design.- Event-triggered active disturbance rejection control.- Dealing with unmatched uncertainties.- Extension to event-triggered high-gain control.- Application to DC motor control.- Application to attitude control of a rigid spacecraft.- Event-triggered adaptive disturbance rejection for artificial pancreas.- Summary and Future work.- Review of stability analysis.

Dawei Shi received the B.Eng. degree in electrical engineering and its automation from the Beijing Institute of Technology, Beijing, China, in 2008, and the Ph.D. degree in control systems from the University of Alberta, Edmonton, AB, Canada, in 2014. In December 2014, he was appointed as Associate Professor at the School of Automation, Beijing Institute of Technology. From February 2017 to July 2018, he was with the Harvard John A. Paulson School of Engineering and Applied Sciences, Harvard University, as Postdoctoral Fellow in bioengineering. Since July 2018, he has been with the School of Automation, Beijing Institute of Technology, as a Professor. His research focuses on analysis and synthesis of complex sampled-data control systems with applications to biomedical engineering, robotics, and motion systems. Dr. Shi serves as a Technical Editor/Associate Editor for IEEE/ASME Transactions on Mechatronics, IET Control Theory & Applications, and IET Cyber-Systems & Robotics. He served as Associate Editor for IFAC World Congress and is a member of the IEEE Control Systems Society Conference Editorial Board. Yuan Huang was born in Heilongjiang, China, in 1992. He received the B.Eng. degree in process automation from the School of Chemical Engineering and Environment, Beijing Institute of Technology, Beijing, China, in 2014. He is currently working toward the Ph.D. degree in automation with the Beijing Institute of Technology. His research interests include event-triggered control, nonlinear control, and networked system control.

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