Adaptive finite-time synchronisation of variable-order fractional chaotic systems for secure communication
DOI10.1080/00207721.2023.2271621OpenAlexW4388850935MaRDI QIDQ6191330
Unnamed Author, Huanqing Wang, Song Ling, Peter Xiaoping Liu
Publication date: 9 February 2024
Published in: International Journal of Systems Science (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/00207721.2023.2271621
adaptive controlchaotic systemsfinite-time stabilitysecure communicationsynchronisation controlvariable-order fractional (VOF)
Adaptive control/observation systems (93C40) Control/observation systems governed by ordinary differential equations (93C15) Fractional ordinary differential equations (34A08) Chaos control for problems involving ordinary differential equations (34H10) Finite-time stability (93D40)
Cites Work
- Unnamed Item
- Control of a novel class of fractional-order chaotic systems via adaptive sliding mode control approach
- What is a fractional derivative?
- Fractional integration and differentiation of variable order: an overview
- A note on phase synchronization in coupled chaotic fractional order systems
- A chattering-free robust adaptive sliding mode controller for synchronization of two different chaotic systems with unknown uncertainties and external disturbances
- Design of sliding mode controller for a class of fractional-order chaotic systems
- Synchronization of different fractional order chaotic systems using active control
- Stability analysis of linear fractional differential system with multiple time delays
- Stability of \(N\)-dimensional linear systems with multiple delays and application to synchronization
- Adaptive feedback control and synchronization of non-identical chaotic fractional order systems
- A predictor-corrector approach for the numerical solution of fractional differential equations
- Fractional integration and differentiation of variable order
- Projective synchronization of different fractional-order chaotic systems with non-identical orders
- Modified projective synchronization of fractional-order chaotic systems via active sliding mode control
- Command filtered adaptive neural network synchronization control of fractional-order chaotic systems subject to unknown dead zones
- Existence of the solution and stability for a class of variable fractional order differential systems
- Projective synchronization of different uncertain fractional-order multiple chaotic systems with input nonlinearity via adaptive sliding mode control
- Sliding mode control for a class of variable-order fractional chaotic systems
- Universal chaos synchronization control laws for general quadratic discrete systems
- Uncertainty and disturbance estimator based robust synchronization for a class of uncertain fractional chaotic system via fractional order sliding mode control
- Control of finite-time anti-synchronization for variable-order fractional chaotic systems with unknown parameters
- Control of damping oscillations by fractional differential operator with time-dependent order
- Finite-/fixed-time bipartite consensus for first-order multi-agent systems via impulsive control
- Mechanics with variable-order differential operators
- Synchronization in chaotic systems
- Design of a secure communication system between base transmitter station and mobile equipment based on finite-time chaos synchronisation
- Adaptive fractional-order Kalman filters for continuous-time nonlinear fractional-order systems with unknown parameters and fractional-orders
- High-order sliding mode-based synchronisation of fractional-order chaotic systems subject to output delay and unknown disturbance
- Synchronization of Chaotic Fractional Chen System
- Finite-time command filter-based adaptive fuzzy output-feedback control for MIMO nonlinear systems with multiple actuator constraints
- Adaptive finite-time optimised impedance control for robotic manipulators with state constraints
This page was built for publication: Adaptive finite-time synchronisation of variable-order fractional chaotic systems for secure communication
