Innovative Deep Learning Strategies for Chaotic Data Classification: A Multi-Algorithm Comparison in the Presence of Noise

IF 1.2 4区 工程技术 Q3 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Fluctuation and Noise Letters Pub Date : 2024-02-24 DOI:10.1142/s0219477524500251
Shih-Lin Lin
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Abstract

Chaos is prevalent in both nature and science, appearing in data, time series and complex systems. Chaotic systems exhibit numerous uncertainties, akin to noise, which challenge researchers to distinguish or analyze potential underlying patterns or even identify the type of system involved. However, determining the kind of chaotic system is essential, as it enables prediction, synchronization, control, treatment and application. This study employs machine learning to classify chaotic data through a simulation involving three types of research data: Lorenz data, Lorenz combined with Gaussian white noise, Gaussian white noise and pink noise, utilizing six distinct algorithms. The most effective testing results are achieved using Mobilenet, with a classification accuracy of 97.38% and a loss of 0.2680 across these six data types.

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用于混沌数据分类的创新深度学习策略:存在噪声时的多算法比较
混沌普遍存在于自然界和科学界,出现在数据、时间序列和复杂系统中。混沌系统表现出许多不确定性,类似于噪音,这对研究人员分辨或分析潜在的基本模式,甚至确定所涉及的系统类型提出了挑战。然而,确定混沌系统的类型至关重要,因为这有助于预测、同步、控制、处理和应用。本研究采用机器学习方法,通过涉及三种研究数据的模拟对混沌数据进行分类:洛伦兹数据、洛伦兹与高斯白噪声相结合的数据、高斯白噪声和粉红噪声,利用六种不同的算法。使用 Mobilenet 取得了最有效的测试结果,在这六种数据类型中,分类准确率为 97.38%,损失为 0.2680。
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来源期刊
Fluctuation and Noise Letters
Fluctuation and Noise Letters 工程技术-数学跨学科应用
CiteScore
2.90
自引率
22.20%
发文量
43
审稿时长
>12 weeks
期刊介绍: Fluctuation and Noise Letters (FNL) is unique. It is the only specialist journal for fluctuations and noise, and it covers that topic throughout the whole of science in a completely interdisciplinary way. High standards of refereeing and editorial judgment are guaranteed by the selection of Editors from among the leading scientists of the field. FNL places equal emphasis on both fundamental and applied science and the name "Letters" is to indicate speed of publication, rather than a limitation on the lengths of papers. The journal uses on-line submission and provides for immediate on-line publication of accepted papers. FNL is interested in interdisciplinary articles on random fluctuations, quite generally. For example: noise enhanced phenomena including stochastic resonance; 1/f noise; shot noise; fluctuation-dissipation; cardiovascular dynamics; ion channels; single molecules; neural systems; quantum fluctuations; quantum computation; classical and quantum information; statistical physics; degradation and aging phenomena; percolation systems; fluctuations in social systems; traffic; the stock market; environment and climate; etc.
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