Stabilization of nonlinear delayed systems subject to impulsive disturbance via aperiodic intermittent control

Wang, Yinuo; Li, Chuandong; Wu, Hongjuan; Deng, Hao

doi:10.1016/j.jfranklin.2024.106675

Journal of the Franklin Institute

2024

DOI: 10.1016/j.jfranklin.2024.106675

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Stabilization of nonlinear delayed systems subject to impulsive disturbance via aperiodic intermittent control

Yinuo Wang,

Chuandong Li,

Hongjuan Wu

et al.

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2024

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Intermittent control for stabilization of uncertain nonlinear systems via event-triggered mechanism

Xu,

Zhang

2024

MATH

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<p>This paper studies the finite-time stabilization (FTS) and finite-time contraction stabilization (FTCS) of parameter-uncertain systems subjected to impulsive disturbances by using an event-triggered aperiodic intermittent control (EAPIC) method, which combines aperiodic intermittent control with event-triggered control. By employing the Lyapunov method and linear matrix inequality techniques, sufficient conditions for FTS and FTCS are derived. Additionally, within the finite-time control framework, relationships among impulsive disturbance, intermittent control parameters, and event-triggered mechanism (ETM) thresholds are established under EAPIC to ensure FTS and FTCS. The sequence of impulsive moments is determined by a predetermined ETM, and Zeno phenomena are also excluded. Finally, the effectiveness of the EAPIC approach is demonstrated through two numerical examples.</p>

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Intermittent control for stabilization of uncertain nonlinear systems via event-triggered mechanism

Xu,

Zhang

2024

MATH

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show abstract

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Stabilization of nonlinear delayed systems subject to impulsive disturbance via aperiodic intermittent control

Cited by 1 publication

References 23 publications

Intermittent control for stabilization of uncertain nonlinear systems via event-triggered mechanism

Intermittent control for stabilization of uncertain nonlinear systems via event-triggered mechanism

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