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Propagation of EEG activity during continuous attention test

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The propagation of EEG activity during the Continuous Attention Test (CAT) was determined by means of Short-time Directed Transfer Function (SDTF). SDTF supplied the information on the direction, spectral content and time evolution of the propagating EEG activity. The differences in propagation for target and non-target conditions were found mainly in the frontal structures of the brain.
Słowa kluczowe
Rocznik
Strony
217--222
Opis fizyczny
Bibliogr. 22 poz., 4 rys.
Twórcy
autor
autor
  • Institute of Experimental Physics, Department of Biomedical Physics, Warsaw University, 69 Hoża Str., 00-681 Warsaw, Poland., rafal.kus@fuw.edu.pl
Bibliografia
  • [1] M. Kami´nski and K.J. Blinowska, “A new method of the description of the information flow in the brain structures”, Biol. Cybern. 65, 203–210 (1991).
  • [2] P.J. Franaszczuk and G.K. Bergey, “Application of the directed transfer function method to mesial and lateral onset temporal lobe seizures”, Brain Topography 11, 13–21 (1998).
  • [3] A. Korzeniewska, S. Kasicki, M. Kami´nski, and K.J. Blinowska, “Information flow between hippocampus and related structures during various types of rat’s behavior”, J. Neurosci. Meth. 73, 49–60 (1997).
  • [4] M. Kami´nski, K.J. Blinowska, andW. Szelenberger, “Investigation of coherence structure and EEG activity propagation during sleep”, Acta Neurobiol. Exp. 55, 213–219 (1995).
  • [5] J. Ginter Jr., K.J. Blinowska, M. Kami´nski, and P.J. Durka, “Phase and amplitude analysis in time-frequency space – application to voluntary finger movement”, J. Neurosci. Meth. 110, 113–124 (2001).
  • [6] K.J. Blinowska, J. Ginter, M. Kami´nski, and R. Ku´s, “Propagation of EEG activity as a function of time and frequency”, Proceedings of MEDICON 2004, Ischia, Italy CD ROM 31 July-5 August, (2004).
  • [7] J. Ginter Jr., K.J. Blinowska, M. Kami´nski, P. J. Durka, G. Pfurtscheller, and C. Neuper, “Propagation of EEG activity in beta and gamma band during movement imagery in human”, Methods Inf. Med. 44, 106–113 (2005).
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  • [13] M. Kami´nski, M. Ding, W. Truccolo, and S. Bressler, “Evaluating causal relations in neural systems: Granger causality, directed transfer function and statistical assessment of significance”, Biol. Cybern. 85, 145–157 (2001).
  • [14] M. Ding, S.L. Bressler, W. Yang, and H. Liang, “Short-window spectral analysis of cortical event-related potentials by adaptive multivariate autoregressive modeling: data preprocessing, model validation, and variability assessment”, Biol. Cybern. 83, 35–45 (2000).
  • [15] B. Efron and R.J. Tibshirani, An Introduction to the Bootstrap, Chapman & Hall, 1993.
  • [16] G.E.P. Box, D.R. Cox, “An analysis of transformations”, Journal of the Royal Statistical Society 2, 211–252 (1964).
  • [17] M. Mishkin and E.A. Murray “Stimulus recognition”, Curr. Opin. Neurobiol. 4, 200–206 (1994). [18] M. Brazdil, I. Rektor, M. Dufek, P. Daniel, P. Jurak, and R. Kuba “The role of frontal and temporal lobes in visual discrimination task – depth ERP studies”, Neurophysiol. Clin. 29 (4), 339–50 (1999).
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  • [21] R. Ku´s, M. Kami´nski, and K.J. Blinowska, “Determination of EEG activity propagation: pair-wise versus multichannel estimate”, IEEE Trans. on BME 51, 1501–1510 (2004).
  • [22] K.J. Blinowska, R. Ku´s, M. Kami´nski, “Granger causality and information flow in multivariate processes”, Phys. Rev. E, 70, 050902 (2004).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG5-0006-0003
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