耦合系统非线性降噪的非结构网格方法

IF 1.7 4区数学 Q2 MATHEMATICS, APPLIED

SIAM Journal on Applied Dynamical Systems Pub Date : 2023-10-13 DOI:10.1137/22m152092x

Aaron Kirtland, Jonah Botvinick-Greenhouse, Marianne DeBrito, Megan Osborne, Casey Johnson, Robert S. Martin, Samuel J. Araki, Daniel Q. Eckhardt

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引用次数: 2

摘要

为了解决电子数据采集系统和现实世界来源中固有的噪声，Araki等人。D, 417(2021)， 132819]展示了一种基于网格的非线性技术，利用来自相同动力系统的干净高保真信号和多维相空间的集合平均，从混沌信号中去除噪声。该方法实现了对100%加噪的时间序列数据的去噪，但在数据密度较低的区域受到影响。为了改进这种基于网格的方法，这里使用基于三角剖分和Voronoi图的非结构化网格来完成相同的任务。非结构化网格更均匀地将数据样本分布在网格单元上，提高了重构信号的精度。通过经验平衡选择非结构化单元的数量作为可用样本数量的函数时的偏差和方差误差，该方法实现了已知测试数据的渐近统计收敛，并且比原始的基于网格的策略更成功地降低了霍尔效应推力器实验信号的合成噪声。

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An Unstructured Mesh Approach to Nonlinear Noise Reduction for Coupled Systems

To address noise inherent in electronic data acquisition systems and real-world sources, Araki et al. [Phys. D, 417 (2021), 132819] demonstrated a grid-based nonlinear technique to remove noise from a chaotic signal, leveraging a clean high-fidelity signal from the same dynamical system and ensemble averaging in multidimensional phase space. This method achieved denoising of a time series data with 100% added noise but suffered in regions of low data density. To improve this grid-based method, here an unstructured mesh based on triangulations and Voronoi diagrams is used to accomplish the same task. The unstructured mesh more uniformly distributes data samples over mesh cells to improve the accuracy of the reconstructed signal. By empirically balancing bias and variance errors in selecting the number of unstructured cells as a function of the number of available samples, the method achieves asymptotic statistical convergence with known test data and reduces synthetic noise on experimental signals from Hall effect thrusters with greater success than the original grid-based strategy.

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来源期刊

SIAM Journal on Applied Dynamical Systems 物理-物理：数学物理

CiteScore

3.60

自引率

4.80%

发文量

审稿时长

6 months

期刊介绍： SIAM Journal on Applied Dynamical Systems (SIADS) publishes research articles on the mathematical analysis and modeling of dynamical systems and its application to the physical, engineering, life, and social sciences. SIADS is published in electronic format only.