非自主扩散的物种竞争流及其周围惯性流形的周期运动

IF 1.1 3区 数学 Q1 MATHEMATICS
Thi Ngoc Ha Vu, Thieu Huy Nguyen
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引用次数: 0

摘要

受具有非自主扩散的两个物种竞争模型的启发,我们考虑了形式为 (\frac{textrm{d}u}\{textrm{d}t})的完全非自主抛物线演化方程。+ A(t)u(t) = f(t,u)+g(t)\) ,其中与时间相关的线性偏微分算子 A(t)、非线性项 f(t, u)和外力 g 是关于 t 的 1 周期族。我们证明在线性偏微分算子族 \((A(t))_{t\in \mathbb {R}}\) 产生满足某些二分估计的演化族 \((U(t,s))_{t\ge s}\) 以及非线性项 f(t, x) 满足 \(\varphi\)-Lipschitz 条件,即、\(\left\| f(t,x_1)-f(t,x_2)\right\| \leqslant \varphi (t)\left\| A(t)^{\theta }(x_1-x_2)\right\|) where \(\varphi (\cdot )\) belongs to some admissible function space on the whole line.然后,我们将抽象结果应用于上述非自主扩散的两物种竞争模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Periodic motions of species competition flows and inertial manifolds around them with nonautonomous diffusion

Periodic motions of species competition flows and inertial manifolds around them with nonautonomous diffusion

Motivated by the competition model of two species with nonautonomous diffusion, we consider fully nonautonomous parabolic evolution equation of the form \(\frac{\textrm{d}u}{\textrm{d}t} + A(t)u(t) = f(t,u)+g(t)\) in which the time-dependent family of linear partial differential operator A(t), the nonlinear term f(tu), and the external force g is 1-periodic with respect to t. We prove the existence and uniqueness of a periodic solution of the above equation and study the inertial manifold for the solutions nearby that solution. We prove the existence of such an inertial manifold in the cases that the family of linear partial differential operators \((A(t))_{t\in \mathbb {R}}\) generates an evolution family \((U(t,s))_{t\ge s}\) satisfying certain dichotomy estimates, and the nonlinear term f(tx) satisfies the \(\varphi \)-Lipschitz condition, i.e., \(\left\| f(t,x_1)-f(t,x_2)\right\| \leqslant \varphi (t)\left\| A(t)^{\theta } (x_1-x_2)\right\| \) where \(\varphi (\cdot )\) belongs to some admissible function space on the whole line. Then, we apply our abstract results to the above-mentioned competition model of two species with nonautonomous diffusion.

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来源期刊
CiteScore
2.30
自引率
7.10%
发文量
90
审稿时长
>12 weeks
期刊介绍: The Journal of Evolution Equations (JEE) publishes high-quality, peer-reviewed papers on equations dealing with time dependent systems and ranging from abstract theory to concrete applications. Research articles should contain new and important results. Survey articles on recent developments are also considered as important contributions to the field. Particular topics covered by the journal are: Linear and Nonlinear Semigroups Parabolic and Hyperbolic Partial Differential Equations Reaction Diffusion Equations Deterministic and Stochastic Control Systems Transport and Population Equations Volterra Equations Delay Equations Stochastic Processes and Dirichlet Forms Maximal Regularity and Functional Calculi Asymptotics and Qualitative Theory of Linear and Nonlinear Evolution Equations Evolution Equations in Mathematical Physics Elliptic Operators
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