LINEARIZED STABILITY FOR ABSTRACT FUNCTIONAL DIFFERENTIAL EQUATIONS SUBJECT TO STATE-DEPENDENT DELAYS WITH APPLICATIONS

Liang Jitai; Niu Ben; Wei Junjie

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LINEARIZED STABILITY FOR ABSTRACT FUNCTIONAL DIFFERENTIAL EQUATIONS SUBJECT TO STATE-DEPENDENT DELAYS WITH APPLICATIONS

机译：受状态依赖延迟影响的抽象泛函微分方程的线性稳定性及其应用

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摘要

In this paper, the linearized stability for a class of abstract functional differential equations (FDE) with state-dependent delays (SD) is investigated. In particular, such equations contain more general delay terms which not only cover the discrete delay and distributed delay as special cases, but also extend the SD to abstract integro-differential equation that the states belong to some infinite-dimensional space. The principle of linearized stability for such equations is established, which is nontrivial compared with ordinary differential equations with SD. Moreover, it should be stressed that such topic is untreated in the literatures up to date. Finally, we present an example to show the effectiveness of the proposed results.

机译：本文研究了一类具有状态相关时滞（SD）的抽象泛函微分方程（FDE）的线性化稳定性。特别地，这些方程包含更通用的延迟项，它们不仅包括特殊情况下的离散延迟和分布延迟，而且将SD扩展为状态属于某个无限维空间的抽象积分微分方程。建立了此类方程的线性化稳定性原理，与具有SD的常微分方程相比，这是不平凡的。此外，应该强调的是，最新文献中未对该主题进行处理。最后，我们提供一个例子来说明所提出结果的有效性。

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来源
《Discrete and continuous dynamical systems》 |2019年第11期|6167-6188|共22页
作者
Liang Jitai; Niu Ben; Wei Junjie;
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作者单位

Harbin Inst Technol Dept Math Harbin 150001 Heilongjiang Peoples R China;

Harbin Inst Technol Dept Math Harbin 150001 Heilongjiang Peoples R China|Foshan Univ Sch Math & Big Data Foshan 528000 Guangdong Peoples R China;

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正文语种 eng
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Abstract functional differential equations; linearized stability principle; state-dependent delay; sectorial operator;

机译：抽象泛函微分方程;线性化稳定原理;状态相关的延迟;部门经营者;

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1. Linearized stability for a class of neutral functional differential equations with state-dependent delays [J] . Ferenc Hartung Nonlinear Analysis: An International Multidisciplinary Journal . 2008,第5a6期

机译：一类具有状态依赖时滞的中立型泛函微分方程的线性化稳定性
2. Linearized stability in periodic functional differential equations with state-dependent delays [J] . Hartung F Journal of Computational and Applied Mathematics . 2005,第2期

机译：具有状态依赖时滞的周期泛函微分方程的线性化稳定性
3. Linearized Stability for Semiflows Generated by a Class of Neutral Equations, with Applications to State-Dependent Delays [J] . Hans-Otto Walther Journal of dynamics and differential equations . 2010,第3期

机译：由一类中立型方程生成的半流的线性化稳定性及其对状态相关延迟的应用
4. Identification of Parameters in Neutral Functional Differential Equations with State-Dependent Delays [C] . Ferenc Hartung, Janos Turi, The Institute of Electrical and Electronics EngineersInc. IEEE Conference on Decision and Control . 2005

机译：具有状态依赖延迟中性功能微分方程参数的识别
5. A biologically-based controlled growth and differentiation model using delay differential equations: Development, applications and stability analysis. [D] . Whitaker, Shree Yvonne. 2000

机译：使用延迟微分方程的基于生物学的受控生长和分化模型：开发，应用和稳定性分析。
6. Colloquium PaperNonlinear partial differential equations and applications: Non-Lipschitz minimizers of smooth uniformly convex functionals [O] . Vladimír Sverák, Xiaodong Yan 2007

机译：非线性偏微分方程及其应用：光滑一致凸泛函的非Lipschitz极小子
7. Linearized stability for abstract functional differential equations subject to state-dependent delays with applications [O] . Jitai Liang, Ben Niu, Junjie Wei 2019

机译：用于抽象功能微分方程的线性化稳定性，符合应用的状态依赖延迟
8. Estimation of Time- and State-Dependent Delays and Other Parameters in Functional Differential Equations [R] . Murphy, K. A. 1988

机译：泛函微分方程中时间和状态依赖时滞及其他参数的估计

LINEARIZED STABILITY FOR ABSTRACT FUNCTIONAL DIFFERENTIAL EQUATIONS SUBJECT TO STATE-DEPENDENT DELAYS WITH APPLICATIONS

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