Event‐triggered dynamic output feedback control for networked nonlinear systems
Copyright policy )Event‐triggered dynamic output feedback control for networked nonlinear systems
SummaryIn this article, the problem of event‐triggered dynamic output feedback control is investigated for a class of networked nonlinear systems with mixed delays and packet dropouts. By applying the cone complementary linearization technique, sufficient conditions are developed such that the resulting closed‐loop system dynamics is mean square asymptotically stable with a desired performance level. The effectiveness of the proposed method is demonstrated via an illustrative example.
- Victoria University Australia
- Anhui Polytechnic University China (People's Republic of)
- Harbin Institute of Technology China (People's Republic of)
- University of Adelaide Australia
- Chongqing University China (People's Republic of)
networked nonlinear systems, networked nonlinear system, 4008 Electrical engineering, event-triggered dynamic output feedback control, Feedback control, dynamic event-triggered strategy, Discrete event control/observation systems, cone complementary linearization technique, dynamic output feedback control, College of Science and Engineering, Networked control, Nonlinear systems in control theory
networked nonlinear systems, networked nonlinear system, 4008 Electrical engineering, event-triggered dynamic output feedback control, Feedback control, dynamic event-triggered strategy, Discrete event control/observation systems, cone complementary linearization technique, dynamic output feedback control, College of Science and Engineering, Networked control, Nonlinear systems in control theory
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