Disturbance rejection‐based cluster synchronization of nonlinear complex dynamical networks with hybrid‐driven mechanism
DOI10.1002/rnc.6845OpenAlexW4383368859MaRDI QIDQ6194733
Sakthivel Rathinasamy, Unnamed Author, Guangtao Ran, Unnamed Author
Publication date: 12 March 2024
Published in: International Journal of Robust and Nonlinear Control (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/rnc.6845
cluster synchronizationdisturbance rejection techniquehybrid-triggering control designhybrid-triggering mechanismmulti-weighted complex dynamical networks
Control/observation systems governed by functional relations other than differential equations (such as hybrid and switching systems) (93C30) Stability of control systems (93D99) Networked control (93B70)
Cites Work
- Wirtinger's inequality and Lyapunov-based sampled-data stabilization
- Cluster synchronization of linearly coupled complex networks via linear and adaptive feedback pinning controls
- EID estimator-based modified repetitive control for singular systems with time-varying delay
- Generalized lag synchronization of multiple weighted complex networks with and without time delay
- Consensus of multi-agent systems via fully distributed event-triggered control
- Pinning cluster synchronization of delayed complex dynamical networks with nonidentical nodes and impulsive effects
- Delay-dependent cluster synchronization of time-varying complex dynamical networks with noise via delayed pinning impulsive control
- Hybrid-triggered-based security controller design for networked control system under multiple cyber attacks
- Adaptive disturbance observer-based control of hydraulic systems with asymptotic stability
- Novel approaches to pin cluster synchronization on complex dynamical networks in Lur'e forms
- Pinning synchronization of fractional and impulsive complex networks via event-triggered strategy
- Fault-tolerant leader-following consensus for multi-agent systems subject to semi-Markov switching topologies: an event-triggered control scheme
- Intermittent control with double event-driven for leader-following synchronization in complex networks
- Novel results on nonfragile sampled‐data exponential synchronization for delayed complex dynamical networks
- Improving disturbance-rejection performance in a modified repetitive-control system based on equivalent-input-disturbance approach
- Event-Triggered Control of Continuous-Time Switched Linear Systems
- Cluster synchronization of delayed coupled neural networks: delay-dependent distributed impulsive control
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