Analog-Based Forecasting of Turbulent Velocity: Relationship between Predictability and Intermittency

arXiv - PHYS - Fluid Dynamics Pub Date : 2024-09-12 DOI:arxiv-2409.07792

Ewen FrogéIMT Atlantique - MEE, ODYSSEY, Lab-STICC\_OSE, Carlos Granero-BelinchonODYSSEY, IMT Atlantique - MEE, Lab-STICC\_OSE, Stéphane G. RouxENS de Lyon, Nicolas B. GarnierPhys-ENS, Thierry ChonavelIMT Atlantique - MEE, Lab-STICC\_MATRIX

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Abstract

This study evaluates the performance of analog-based methodologies to predict the longitudinal velocity in a turbulent flow. The data used comes from hot wire experimental measurements from the Modane wind tunnel. We compared different methods and explored the impact of varying the number of analogs and their sizes on prediction accuracy. We illustrate that the innovation, defined as the difference between the true velocity value and the prediction value, highlights particularly unpredictable events that we directly link with extreme events of the velocity gradients and so to intermittency. This result indicates that while the estimator effectively seizes linear correlations, it fails to fully capture higher-order dependencies. The innovation underscores the presence of intermittency, revealing the limitations of current predictive models and suggesting directions for future improvements in turbulence forecasting.

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基于模拟的湍流速度预测：可预测性与间歇性之间的关系

本研究评估了基于模拟方法预测湍流纵向速度的性能。所使用的数据来自 Modane 风洞的热线实验测量。我们比较了不同的方法，并探讨了改变模拟量的数量和大小对预测精度的影响。我们发现，创新值（定义为真实速度值与预测值之间的差值）特别突出了不可预测的事件，我们将其与速度梯度的极端事件直接联系起来，因此与间歇性联系起来。这一结果表明，虽然估计器有效地捕捉到了线性相关关系，但却未能完全捕捉到高阶依赖关系。这一创新强调了间歇性的存在，揭示了当前预测模型的局限性，并为未来湍流预测的改进指明了方向。

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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arXiv - PHYS - Fluid Dynamics

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