Related papers: Detecting Stochasticity in Discrete Signals via Nonparametric Excursion Theorem

Detecting Stochasticity in Discrete Signals via Nonparametric Excursion Theorem

URL: http://arxiv.org/abs/2601.06009v1
Date: Fri, 09 Jan 2026 18:47:57 GMT
Title: Detecting Stochasticity in Discrete Signals via Nonparametric Excursion Theorem
Authors: Sunia Tanweer, Firas A. Khasawneh,
Abstract summary: We develop a framework for distinguishing diffusive processes from deterministic signals using only a single discrete time series.<n>Our approach is based on classical excursion and crossing theorems for continuous semimartingales.<n>We demonstrate the method on canonical systems, some periodic and chaotic maps and systems with additive white noise.
Score: 0.15469452301122175
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We develop a practical framework for distinguishing diffusive stochastic processes from deterministic signals using only a single discrete time series. Our approach is based on classical excursion and crossing theorems for continuous semimartingales, which correlates number $N_\varepsilon$ of excursions of magnitude at least $\varepsilon$ with the quadratic variation $[X]_T$ of the process. The scaling law holds universally for all continuous semimartingales with finite quadratic variation, including general Ito diffusions with nonlinear or state-dependent volatility, but fails sharply for deterministic systems -- thereby providing a theoretically-certfied method of distinguishing between these dynamics, as opposed to the subjective entropy or recurrence based state of the art methods. We construct a robust data-driven diffusion test. The method compares the empirical excursion counts against the theoretical expectation. The resulting ratio $K(\varepsilon)=N_{\varepsilon}^{\mathrm{emp}}/N_{\varepsilon}^{\mathrm{theory}}$ is then summarized by a log-log slope deviation measuring the $\varepsilon^{-2}$ law that provides a classification into diffusion-like or not. We demonstrate the method on canonical stochastic systems, some periodic and chaotic maps and systems with additive white noise, as well as the stochastic Duffing system. The approach is nonparametric, model-free, and relies only on the universal small-scale structure of continuous semimartingales.

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