Spectral Subtraction and Cepstral Distance for Enhancing EEG Entropy

Author

Assaleh, Khaled ; Al-Nashash, Hasan ; Thakor, Nitish

Author_Institution

Dept. of Electr. Eng., American Univ. of Sharjah

fYear

2006

Firstpage

2751

Lastpage

2754

Abstract

Electroencephalographic (EEG) signals are normally acquired in the presence of background noise which causes inaccurate or false entropy measurement throughout the signal. In this paper, spectral subtraction is used to pre-process EEG signals to improve the accuracy of computing the subband wavelet entropy (SWE). The silent period in the EEG signal is identified via cepstral distance which allows its entropy to be set to zero. The EEG signal presented in this paper represents various stages of brain recovery obtained from a rodent following global cerebral ischemia. The various subband entropies are calculated using wavelet decomposition in EEG subbands, namely delta, theta, alpha, beta and gamma. The utilization of spectral subtraction improved the accuracy of the SWE as compared to energy thresholding

Keywords

electroencephalography; entropy; medical signal processing; wavelet transforms; EEG entropy enhancement; alpha subband; background noise; beta subband; brain recovery; cepstral distance; delta subband; electroencephalography; gamma subband; global cerebral ischemia; rodent; spectral subtraction; subband wavelet entropy; theta subband; wavelet decomposition; Background noise; Biomedical engineering; Biomedical measurements; Cepstral analysis; Electroencephalography; Entropy; Ischemic pain; Noise measurement; Protocols; Signal processing;

fLanguage

English

Publisher

ieee

Conference_Titel

Engineering in Medicine and Biology Society, 2005. IEEE-EMBS 2005. 27th Annual International Conference of the

Conference_Location

Shanghai

Print_ISBN

0-7803-8741-4

Type

conf

DOI

10.1109/IEMBS.2005.1617041

Filename

1617041