离散时间动力学、阶斜乘积和管道流

arXiv - MATH - Dynamical Systems Pub Date : 2024-09-03 DOI:arxiv-2409.02318

Suddhasattwa Das

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引用次数: 0

摘要

离散时间确定性动态系统的每一步都受预定规律的支配。然而，动态系统可能导致相空间和观测值域的许多复杂性，从而使其与随机过程相提并论。本文介绍了用随机过程表示动态系统的两种不同方法。第一种是阶斜积系统，其中有限状态马尔可夫过程驱动欧几里得空间上的动力学。第二种是斜积系统，其中一个确定性混合流间歇性地驱动一个确定性流通过一个由粘合圆柱体创建的拓扑空间。这个系统被称为扰动管流。我们可以看到这三种表征是如何互换的。它们之间的相互联系也揭示了确定性混沌系统如何在局部水平上分割相空间，以及如何在全局水平上混合相空间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Discrete-time dynamics, step-skew products, and pipe-flows

A discrete-time deterministic dynamical system is governed at every step by a predetermined law. However the dynamics can lead to many complexities in the phase space and in the domain of observables that makes it comparable to a stochastic process. This article presents two different ways of representing a dynamical system by stochastic processes. The first is a step-skew product system, in which a finite state Markov process drives a dynamics on Euclidean space. The second is a skew-product system, in which a deterministic, mixing flow intermittently drives a deterministic flow through a topological space created by gluing cylinders. This system is called a perturbed pipe-flow. We show how these three representations are interchangeable. The inter-connections also reveal how a deterministic chaotic system partitions the phase space at a local level, and also mixes the phase space at a global level.

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arXiv - MATH - Dynamical Systems

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