脑电分析中的超频带约束:模态分解在推边界中的作用

Signals Pub Date : 2023-07-05 DOI:10.3390/signals4030026
Eduardo Arrufat-Pié, M. Estévez-Báez, José Mario Estévez-Carreras, Gerry Leisman, C. Machado, Carlos Beltrán-León
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引用次数: 0

摘要

本研究探讨了利用经验模态分解(EMD)提取健康个体脑电图信号频谱分析的内在模态函数(IMFs)及其可能的生物学解释。与传统的脑电图分析不同,这种方法不需要建立任意的频带限制。本研究采用多元EMD算法(APIT-MEMD)从34名健康志愿者的脑电图信号中提取imf。使用FFT和HHT两种不同的方法对前六个IMFs进行分析,并使用ANOVA检验和Bland-Altman方法进行一致性检验。结果表明,前6个IMFs的频率值均在经典EEG频带(1.72 ~ 52.4 Hz)范围内。尽管两种方法(> - 3hz)的前三个imf的平均加权频率值缺乏一致性,但两种方法在功率谱密度(功率谱密度的归一化单位<5%,%)上显示出相似的结果。HHT方法比APIT-MEMD方法具有更好的频率分辨率,与FTT相关的APIT-MEMD方法在IMF3和4之间产生较少的重叠(p = 0.0046),推荐用于分析IMF3和4的频谱特性。研究认为,HHT方法可以避免假设严格的频带限制,并且在未来的研究中必须考虑脑电生理现象对模式混合解释的潜在影响,特别是对α和θ范围的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Beyond Frequency Band Constraints in EEG Analysis: The Role of the Mode Decomposition in Pushing the Boundaries
This study investigates the use of empirical mode decomposition (EMD) to extract intrinsic mode functions (IMFs) for the spectral analysis of EEG signals in healthy individuals and its possible biological interpretations. Unlike traditional EEG analysis, this approach does not require the establishment of arbitrary band limits. The study uses a multivariate EMD algorithm (APIT-MEMD) to extract IMFs from the EEG signals of 34 healthy volunteers. The first six IMFs are analyzed using two different methods, based on FFT and HHT, and the results compared using the ANOVA test and the Bland–Altman method for agreement test. The outcomes show that the frequency values of the first six IMFs fall within the range of classic EEG bands (1.72–52.4 Hz). Although there was a lack of agreement in the mean weighted frequency values of the first three IMFs between the two methods (>3 Hz), both methods showed similar results for power spectral density (<5% normalized units, %, of power spectral density). The HHT method is found to have better frequency resolution than APIT-MEMD associated with FTT that produce less overlapping between IMF3 and 4 (p = 0.0046) and it is recommended for analyzing the spectral properties of IMFs. The study concludes that the HHT method could help to avoid the assumption of strict frequency band limits, and that the potential impact of EEG physiological phenomenon on mode-mixing interpretation, particularly for the alpha and theta ranges, must be considered in future research.
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来源期刊
CiteScore
3.20
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11 weeks
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