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Autori principali: Barros, Vanessa, Coutinho, Adriana
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.18050
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author Barros, Vanessa
Coutinho, Adriana
author_facet Barros, Vanessa
Coutinho, Adriana
contents In this paper, we investigate the asymptotic behavior of the shortest distance between observed orbits in two distinct dynamical systems. Given two measure-preserving transformations $(X, T, μ)$ and $(X, S, η)$ and a Lipschitz observation function $f$, we define \[ \widehat{m}_n^f(x,y) = \min_{i=0,\ldots,n-1} d\big(f(T^i x), f(S^i y)\big). \] %Under suitable mixing assumptions, we show that the asymptotic rate of decay of $\widehat{m}_n^f(x,y)$ is governed by the correlation dimensions of the pushforward measures $f_*μ$ and $f_*η$. Under suitable mixing assumptions, we show that the asymptotic rate of decay of $\widehat{m}_n^f(x,y)$ is governed by the symmetric Rényi divergence of the pushforward measures $f_*μ$ and $f_*η$. Our results generalize previous work that consider either a single system or the unobserved case. In addition, we discuss the extension of these results to random dynamical systems and illustrate the applicability of the approach with an example.
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publishDate 2025
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spellingShingle Shortest distance between observed orbits in distinct Dynamical Systems
Barros, Vanessa
Coutinho, Adriana
Dynamical Systems
In this paper, we investigate the asymptotic behavior of the shortest distance between observed orbits in two distinct dynamical systems. Given two measure-preserving transformations $(X, T, μ)$ and $(X, S, η)$ and a Lipschitz observation function $f$, we define \[ \widehat{m}_n^f(x,y) = \min_{i=0,\ldots,n-1} d\big(f(T^i x), f(S^i y)\big). \] %Under suitable mixing assumptions, we show that the asymptotic rate of decay of $\widehat{m}_n^f(x,y)$ is governed by the correlation dimensions of the pushforward measures $f_*μ$ and $f_*η$. Under suitable mixing assumptions, we show that the asymptotic rate of decay of $\widehat{m}_n^f(x,y)$ is governed by the symmetric Rényi divergence of the pushforward measures $f_*μ$ and $f_*η$. Our results generalize previous work that consider either a single system or the unobserved case. In addition, we discuss the extension of these results to random dynamical systems and illustrate the applicability of the approach with an example.
title Shortest distance between observed orbits in distinct Dynamical Systems
topic Dynamical Systems
url https://arxiv.org/abs/2512.18050