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Main Authors: Ouafi, Mohamed El, Ahalli, Hajar, Aslimani, Abderrahim, Uahabi, Kaoutar Lamrini
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.08209
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author Ouafi, Mohamed El
Ahalli, Hajar
Aslimani, Abderrahim
Uahabi, Kaoutar Lamrini
author_facet Ouafi, Mohamed El
Ahalli, Hajar
Aslimani, Abderrahim
Uahabi, Kaoutar Lamrini
contents This article examines the subtle relationship between chaos and randomness, two concepts that, although they refer to seemingly unpredictable phenomenon, are based on fundamentally different principles. Chaos manifests in deterministic systems where small variations in initial conditions lead to unpredictable long-term behaviors, while randomness pertains to intrinsically probabilistic processes, characterized by fundamental uncertainty. Although these phenomena are based on distinct mechanisms, they can interact and converge in contexts as varied as the modeling of natural phenomena, climate forecasts, or financial markets. Despite their differences, these two phenomena share common characteristics, such as the absence of apparent order and an unpredictability that defies our attempts at long-term prediction. Through an analysis of chaos theory and probability, this article aims to clarify the distinctions and highlight the deep connections between these two concepts in real systems. The objective of this article is to present a comprehensive approach aimed at demonstrating that, under certain conditions, a random phenomenon can be effectively represented and approximated by a chaotic phenomenon. By examining this possibility, we seek to establish the theoretical foundations that connect these two concepts, often perceived as distinct, but whose dynamics could prove to be analogous in certain contexts.
format Preprint
id arxiv_https___arxiv_org_abs_2507_08209
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Formal proof of the approximation of a random phenomenon by a chaotic phenomenon
Ouafi, Mohamed El
Ahalli, Hajar
Aslimani, Abderrahim
Uahabi, Kaoutar Lamrini
Dynamical Systems
This article examines the subtle relationship between chaos and randomness, two concepts that, although they refer to seemingly unpredictable phenomenon, are based on fundamentally different principles. Chaos manifests in deterministic systems where small variations in initial conditions lead to unpredictable long-term behaviors, while randomness pertains to intrinsically probabilistic processes, characterized by fundamental uncertainty. Although these phenomena are based on distinct mechanisms, they can interact and converge in contexts as varied as the modeling of natural phenomena, climate forecasts, or financial markets. Despite their differences, these two phenomena share common characteristics, such as the absence of apparent order and an unpredictability that defies our attempts at long-term prediction. Through an analysis of chaos theory and probability, this article aims to clarify the distinctions and highlight the deep connections between these two concepts in real systems. The objective of this article is to present a comprehensive approach aimed at demonstrating that, under certain conditions, a random phenomenon can be effectively represented and approximated by a chaotic phenomenon. By examining this possibility, we seek to establish the theoretical foundations that connect these two concepts, often perceived as distinct, but whose dynamics could prove to be analogous in certain contexts.
title Formal proof of the approximation of a random phenomenon by a chaotic phenomenon
topic Dynamical Systems
url https://arxiv.org/abs/2507.08209