Continuity of random attractors on a topological space and fractional delayed FitzHugh-Nagumo equations with WZ-noise

Li, Yangrong; Yang, Su‐Jau; Long, Guangqing

doi:10.3934/dcdsb.2021303

Cited by 7 publications

(1 citation statement)

References 43 publications

(66 reference statements)

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“…However, there exist very few works on studying the attractors of random delayed equations driven by the nonlinear Wong-Zakai noise, even in autonomous version. To our knowledge, the only two papers for such autonomous equations were published by Li et al in 24,25 . In this paper, we investigate the dynamics of nonautonomous random delayed FitzHugh-Nagumo lattice system with a nonlinear Wong-Zakai noise (1).…”

Section: Introductionmentioning

confidence: 99%

Dynamical stability of random delayed FitzHugh–Nagumo lattice systems driven by nonlinear Wong–Zakai noise

Yang

Caraballo

2022

Journal of Mathematical Physics

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In this paper, two problems related to FitzHugh–Nagumo lattice systems are analyzed. The first one is concerned with the asymptotic behavior of random delayed FitzHugh–Nagumo lattice systems driven by nonlinear Wong–Zakai noise. We obtain a new result ensuring that such a system approximates the corresponding deterministic system when the correlation time of Wong–Zakai noise goes to infinity rather than to zero. We first prove the existence of tempered random attractors for the random delayed lattice systems with a nonlinear drift function and a nonlinear diffusion term. The pullback asymptotic compactness of solutions is proved thanks to the Ascoli–Arzelà theorem and uniform tail-estimates. We then show the upper semicontinuity of attractors as the correlation time tends to infinity. As for the second problem, we consider the corresponding deterministic version of the previous model and study the convergence of attractors when the delay approaches zero. That is, the upper semicontinuity of attractors for the delayed system to the non-delayed one is proved.

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Section: Introductionmentioning

confidence: 99%

Dynamical stability of random delayed FitzHugh–Nagumo lattice systems driven by nonlinear Wong–Zakai noise

Yang

Caraballo

2022

Journal of Mathematical Physics

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Residually continuous pullback attractors for stochastic discrete plate equations

Han,

Li,

Xia

2024

Math Methods in App Sciences

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For a nonautonomous stochastic discrete plate equation driven by multiplicative noise, we prove the unique existence of a pullback random attractor, which is a family of pullback‐attracting random compact sets parameterized by time and samples. We then establish the residual dense continuity of the pullback random attractor on the time‐sample plane with respect to the Hausdorff metric. Even without the Cantor continuum hypothesis, we show that the set of all points of continuity of the pullback random attractor is an uncountable set with the continuity cardinality. These results explain both nonexplosive and nonimplosive phenomena for the random plate lattice system.

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Cardinality and IOD-type continuity of pullback attractors for random nonlocal equations on unbounded domains

Li,

Caraballo,

Wang

2024

Math. Ann.

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Continuity of random attractors on a topological space and fractional delayed FitzHugh-Nagumo equations with WZ-noise

Cited by 7 publications

References 43 publications

Dynamical stability of random delayed FitzHugh–Nagumo lattice systems driven by nonlinear Wong–Zakai noise

Dynamical stability of random delayed FitzHugh–Nagumo lattice systems driven by nonlinear Wong–Zakai noise

Residually continuous pullback attractors for stochastic discrete plate equations

Cardinality and IOD-type continuity of pullback attractors for random nonlocal equations on unbounded domains

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