Title of article
Characterization of time dynamical evolution of electroencephalographic epileptic records
Author/Authors
Osvaldo A. Rosso، نويسنده , , Mar?a Liliana Mairal، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2002
Pages
36
From page
469
To page
504
Abstract
Since traditional electrical brain signal analysis is mostly qualitative, the development of new quantitative methods is crucial for restricting the subjectivity in the study of brain signals. These methods are particularly fruitful when they are strongly correlated with intuitive physical concepts that allow a better understanding of the brain dynamics. The processing of information by the brain is reflected in dynamical changes of the electrical activity in time, frequency, and space. Therefore, the concomitant studies require methods capable of describing the qualitative variation of the signal in both time and frequency. The entropy defined from the wavelet functions is a measure of the order/disorder degree present in a time series. In consequence, this entropy evaluates over EEG time series gives information about the underlying dynamical process in the brain, more specifically of the synchrony of the group cells involved in the different neural responses. The total wavelet entropy results independent of the signal energy and becomes a good tool for detecting dynamical changes in the system behavior. In addition the total wavelet entropy has advantages over the Lyapunov exponents, because it is parameter free and independent of the stationarity of the time series. In this work we compared the results of the time evolution of the chaoticity (Lyapunov exponent as a function of time) with the corresponding time evolution of the total wavelet entropy in two different EEG records, one provide by depth electrodes and other by scalp ones.
Journal title
Physica A Statistical Mechanics and its Applications
Serial Year
2002
Journal title
Physica A Statistical Mechanics and its Applications
Record number
867927
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