Stability Analysis and Stabilization Strategy for Discrete Networked Control Systems
Abstract
For discrete networked control systems (NCSs) with random and bounded network transmission delay, sufficient conditions which make state-feedback NCSs asymptotically stable are derived by the Lyapunov-Krasovskii functional and linear matrix inequality (LMI). By matrix transformation, sufficient conditions above are converted to controller design methods which make the state-feedback control system asymptotically stable. The simulation proves that the system conservativeness is reduced.
Keywords
Discrete networked control systems, network transmission delay, asymptotical stability
DOI
10.12783/dtcse/aiea2017/14935
10.12783/dtcse/aiea2017/14935
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