含分数高斯噪声的脑电图节律随机建模

2014 22nd European Signal Processing Conference (EUSIPCO) Pub Date : 2014-11-13 DOI:10.5281/ZENODO.44212

Mandar Karlekar, Anubha Gupta

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引用次数: 4

摘要

提出了一种新的脑电图信号节律建模方法。提出了一种基于3级DCT的多速率滤波组方法，将脑电信号分解为δ、θ、α、β和γ节律。结果表明，θ、α和γ节律可以建模为一阶分数高斯噪声(fGn)，而β节律可以建模为二阶fGn过程。这些fGn过程是平稳随机过程。进一步表明，δ子带吸收了脑电信号的所有非平稳性，并可以建模为一阶分数布朗运动(fBm)过程。子带的建模采用Hurst指数表征，使用最大似然估计方法进行估计。该建模方法已在两个公共数据库上进行了测试。

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Stochastic modeling of EEG rhythms with fractional Gaussian Noise

This paper presents a novel approach to signal modeling for EEG signal rhythms. A new method of 3-stage DCT based multirate filterbank is proposed for the decomposition of EEG signals into brain rhythms: delta, theta, alpha, beta, and gamma rhythms. It is shown that theta, alpha, and gamma rhythms can be modeled as 1st order fractional Gaussian Noise (fGn), while the beta rhythms can be modeled as 2nd order fGn processes. These fGn processes are stationary random processes. Further, it is shown that the delta subband imbibes all the nonstationarity of EEG signals and can be modeled as a 1st order fractional Brownian motion (fBm) process. The modeling of subbands is characterized by Hurst exponent, estimated using maximum likelihood (ML) estimation method. The modeling approach has been tested on two public databases.

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来源期刊

2014 22nd European Signal Processing Conference (EUSIPCO)

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