Abstract
This study deals with the problem of global stabilisation of discrete-time linear systems using event-triggered bounded controls. The system dynamics is decomposed into single input subsystems, which explicitly display various dynamic characteristics. Event-triggered bounded control laws, both of the state feedback type and the output feedback type, are constructed based on the dynamics of the subsystems. Event-triggering strategies are designed for updating the control input of the two control laws, respectively. Global asymptotic stabilisation is shown to be achieved under these control laws. Numerical simulation is given to verify the effectiveness of the theoretical results.
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