Sundararajan Raanju R, Frostig Ron, Ombao Hernando
Department of Statistical Science, Southern Methodist University, Dallas, TX 75275, USA..
School of Biological Sciences, University of California Irvine, Irvine, CA 92697, USA.
Entropy (Basel). 2020 Dec 5;22(12):1375. doi: 10.3390/e22121375.
In some applications, it is important to compare the stochastic properties of two multivariate time series that have unequal dimensions. A new method is proposed to compare the spread of spectral information in two multivariate stationary processes with different dimensions. To measure discrepancies, a frequency specific spectral ratio (FS-ratio) statistic is proposed and its asymptotic properties are derived. The FS-ratio is blind to the dimension of the stationary process and captures the proportion of spectral power in various frequency bands. Here we develop a technique to automatically identify frequency bands that carry significant spectral power. We apply our method to track changes in the complexity of a 32-channel local field potential (LFP) signal from a rat following an experimentally induced stroke. At every epoch (a distinct time segment from the duration of the experiment), the nonstationary LFP signal is decomposed into stationary and nonstationary latent sources and the complexity is analyzed through these latent stationary sources and their dimensions that can change across epochs. The analysis indicates that spectral information in the Beta frequency band (12-30 Hertz) demonstrated the greatest change in structure and complexity due to the stroke.
在某些应用中,比较两个维度不等的多元时间序列的随机特性非常重要。本文提出了一种新方法,用于比较两个不同维度的多元平稳过程中频谱信息的分布。为了衡量差异,我们提出了一种频率特定频谱比(FS-ratio)统计量,并推导了其渐近性质。FS-ratio对平稳过程的维度不敏感,能够捕捉各个频段的频谱功率比例。在此,我们开发了一种技术,用于自动识别携带显著频谱功率的频段。我们将该方法应用于跟踪大鼠在实验性诱导中风后32通道局部场电位(LFP)信号复杂性的变化。在每个时期(实验持续时间内的一个不同时间段),将非平稳LFP信号分解为平稳和非平稳潜在源,并通过这些潜在平稳源及其在不同时期可能变化的维度来分析复杂性。分析表明,由于中风,β频段(12 - 30赫兹)的频谱信息在结构和复杂性上表现出最大变化。