Asymptotic behaviour of non-autonomous discrete complex Ginzburg–Landau equations driven by nonlinear noise
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Publication:5163945
DOI10.1080/10236198.2021.1957857zbMath1482.37081OpenAlexW3183523048MaRDI QIDQ5163945
Tao Yan, Aihong Zou, Lu Zhang, Ji Shu
Publication date: 9 November 2021
Published in: Journal of Difference Equations and Applications (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/10236198.2021.1957857
Attractors and their dimensions, Lyapunov exponents for infinite-dimensional dissipative dynamical systems (37L30) Lattice dynamics and infinite-dimensional dissipative dynamical systems (37L60) Infinite-dimensional random dynamical systems; stochastic equations (37L55) Ginzburg-Landau equations (35Q56) Stochastic difference equations (39A50)
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Cites Work
- Unnamed Item
- Random attractors for non-autonomous stochastic wave equations with multiplicative noise
- Sufficient and necessary criteria for existence of pullback attractors for non-compact random dynamical systems
- The existence and exponential behavior of solutions to stochastic delay evolution equations with a fractional Brownian motion
- Random attractors for stochastic sine-Gordon lattice systems with multiplicative white noise
- Dynamical behavior for stochastic lattice systems
- Non-autonomous and random attractors for delay random semilinear equations without uniqueness
- Pullback attractors for nonautonomous and random parabolic equations on non-smooth domains
- Traveling waves in lattice dynamical systems
- Random attractors
- A discrete convolution model for phase transitions
- Dynamics of stochastic reaction-diffusion lattice systems driven by nonlinear noise
- Weak pullback attractors for mean random dynamical systems in Bochner spaces
- Random attractors for stochastic reaction-diffusion equations on unbounded domains
- Global existence and compact attractors for the discrete nonlinear Schrödinger equation
- Threshold behavior and propagation for nonlinear differential-difference systems motivated by modeling myelinated axons
- PEANO'S THEOREM AND ATTRACTORS FOR LATTICE DYNAMICAL SYSTEMS
- Propagation and Its Failure in Coupled Systems of Discrete Excitable Cells
- Cellular neural networks: theory
- The CNN paradigm
- CHAOS OF TRAVELING WAVES IN A DISCRETE CHAIN OF DIFFUSIVELY COUPLED MAPS
- Traveling Waves of Bistable Dynamics on a Lattice
