Estimation of Propagating Phase Transients in EEG Data - Application of Dynamic Logic Neural Modeling Approach

Author

Kozma, Robert ; Deming, Ross W. ; Perlovsky, Leonid I.

Author_Institution

Univ. of Memphis, Memphis

fYear

2007

fDate

12-17 Aug. 2007

Firstpage

2341

Lastpage

2345

Abstract

Dynamic logic (DL) approach establishes a unified framework for the statistical description of mixtures using model-based neural networks. In the present work, we extend the previous results to dynamic processes where the mixture parameters, including partial and total energy of the components are time-dependent. Equations are derived and solved for the estimation of parameters which vary in time. The results provide optimal approximation to a broad class of pattern recognition and process identification problems with variable and noisy data. The introduced methodology is demonstrated on the example of identification of propagating phase gradients generated by intermittent fluctuations in non-equilibrium neural media.

Keywords

electroencephalography; medical computing; neural nets; EEG data; dynamic logic neural modeling approach; model-based neural networks; pattern recognition; process identification problems; propagating phase transients estimation; statistical description; Aggregates; Biological neural networks; Brain modeling; Electroencephalography; Equations; Logic; Neurons; Parameter estimation; Pattern recognition; Phase estimation;

fLanguage

English

Publisher

ieee

Conference_Titel

Neural Networks, 2007. IJCNN 2007. International Joint Conference on

Conference_Location

Orlando, FL

ISSN

1098-7576

Print_ISBN

978-1-4244-1379-9

Electronic_ISBN

1098-7576

Type

conf

DOI

10.1109/IJCNN.2007.4371324

Filename

4371324