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A model of the spatial-temporal characteristics of the alpha rhythm. (English) Zbl 0478.92005

92Cxx Physiological, cellular and medical topics
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[1] Andersen, P. and S. A. Andersson. 1968.Physiological Basis of Alpha Rhythm. New York: Appleton-Century-Crofts.
[2] Andersen, P., M. Gillow and T. Rudford. 1966. ”Rhythmic Activity in a Simulated Neuronal Network.”J. Physiol., Lond.,185, 418–428.
[3] Braitenberg, V. 1977.On the Texture of Brains. New York: Springer-Verlag.
[4] – 1978. ”Cortical Architectonics: General and Areal.” InArchitectonics of the Cerebral Cortex, Eds. M. A. B. Bazier and H. Petsche, pp. 443–465. New York: Raven Press.
[5] Chow, K. L. and A. L. Leiman. 1970. ”Aspects of the Structural and Functional Organization of the Neocortex.”Neurosc. Res. Prog. Bull.,8, No. 2, 157–183.
[6] Katchalsky, A. K., V. Rowland and R. Blumenthal. 1974. ”Dynamic patterns of brain cell assemblies.”Neurosc. Res. Prog. Bull.,12, No. 1, 1–187.
[7] Lopes da Silva, F. H., A. Hoeks, A. Smits and L. H. Zetterberg. 1974. ”Model of Brain Rhythmic Activity.”Kybernetik 15, 27–37. · doi:10.1007/BF00270757
[8] –, A. van Rotterdam, P. Barts, E. van Heusden and W. Burr. 1976. ”Models of Neuronal Populations. The Basic Mechanisms of Rhythmicity.” InProgress in Brain Research, Eds. D. Swaab and M. A. Corner, Vol. 45, pp. 281–308. Amsterdam: Elsevier/North Holland Biomedical Press.
[9] – and W. Storm van Leeuwen. 1978. ”The Cortical Alpha Rhythm in Dog: the Depth and Surface Profile of Phase”. InArchitectonics of the Cerebral Cortex, Eds M. A. B. Brazier and H. Petsche, pp. 319–333. New York: Raven Press.
[10] –, J. E. Vos, J. Mooibroek and A. van Rotterdam. 1980a. ”Partial Cohenrence Analysis of Thalamic and Cortical Alpha Rhythms in Dog–a Contribution Towards a General Model of the Cortical Organization of Rhythmic Activity”. InRhythmic EEG Activities and Cortical Functioning, Eds G. Pfurtscheller, P. Buser, F. H. Lopes da Silva and H. Petsche, pp. 33–59. Amsterdam: Elsevier/North Holland Biomedical Press.
[11] –, J. E. Vos, J. Mooibroek and A. van Rotterdam. 1980b. ”Relative Contributions of Intracortical and Thalamo-Cortical Processes in the Generation of Alpha Rhythms Revealed by Partical Coherence Analysis.”Electroenceph. Clin. Neurophysiol. 50, 449–456. · doi:10.1016/0013-4694(80)90011-5
[12] Nunez, P. L. 1974. ”Wavelike Properties of the Alpha Rhythm.”IEEE Trans. Biomed. Eng.,BME-21, 473–481. · doi:10.1109/TBME.1974.324336
[13] Scott, A. C. 1977.Neurophysics, Ch. 7. New York: Wiley.
[14] Szentágothai, J. 1978a. ”Specificity Versus (Quasi) Randomness in Cortical Connectivity”. InArchitectonics of he Cerebral Cortex. Eds. M. A. B. Brazier and H. Petsche, pp. 77–97. New York: Raven Press.
[15] Szentágothai, J. 1978b. ”The Local Neuronal Apparatus of the Cerebral Cortex”. InCerebral Correlates of Consious Experience, Inserm Symp. no. 6, Eds. P. Buser and A. Rougeul-Buser, pp. 131–138. Amsterdam: Elsevier/North Holland Biomedical Press.
[16] Tömböl, T. 1978. ”Comparative Data on the Golgi Architecture of Interneurons of Different Cortical Areas in Cat and Rabbit. InArchitectonics of the Cerebral Cortex, Eds. M. A. B. Brazier and H. Petsche, pp.59–76. New York: Raven Press.
[17] Zetterberg, L. H., L. Kristiansson and K. Mossberg. 1978. ”Performance of a Model for a Local Neuron Population.”Biol. Cybern. 31, 15–26. · Zbl 0391.92004 · doi:10.1007/BF00337367
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