Abstract
This paper studies the problems of H ∞ performance optimization and controller synthesis for discrete-time networked control systems (NCSs) with limited communication channels and data drift. By taking the non-uniform distribution characteristic of packet dropout into full consideration, and proposing the channel utilization-based switched controller, novel models for NCSs with limited communication channels and data drift are presented. A new Lyapunov functional is presented, and new bounding inequalities for cross product of vectors are also given. Then, the quantitative relationships between packet dropout probability and H ∞ performance of NCSs are presented. Numerical example is given to illustrate the merits and effectiveness of the proposed methods.
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