Диссертация (1144826), страница 72
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Hum. Neurosci. – 2010. –V. 4. – P.191.421. Wang, W. Two cortical circuits control propagating in visual cortex / W. Wang, C.Campaiqne, B.K. Ghosh, P.S. Ulinski // J. Comput. Neurosci. – 2005. – V. 19. –P.263–289.422. Walter, W.G. Normal rhytms. Their development, distribution and significance /Walter W.G. // Electroencephalography. – London: Hill and Parr, 1950a. – P.203-277.423.
Walter, W.G. The functions of the electrical rhythms of the brain / Walter W.G.// J.Mental. Sci. – 1950b. – V. 96. – P. 1–31.424. Walter, W.G. Toposcopy / Walter W.G. // Third International EEG Congress1953, Symposium I on Recent Developments in ElectroencephalographicTechniques. – Amsterdam: Elsevier, 1953. – P.7–16.424425425. Walter, W.G. Intrinsic rhythms of the brain / Walter W.G.
// J. Field. Handbookof physiology. – 1959. – V. 1. – P. 279–298.426. Watt, A.J. Traveling waves in developing cerebellar cortex mediated byasymmetrically connected Purkinje cells / A.J. Watt, H. Cuntz, M. Mori, Z.Nusser, P.J. Sjöström, M. Häusser // Nature Neuroscience. – 2009. – V.
12. – P.463–473.427. Wedeen, V.J. The Geometric Structure of the Brain Fiber Pathways / V.J.Wedeen, D.L. Rosene, R. Wang, G. Dai, F. Mortazavi, P. Hagmann, J.H. Kaas,W–Y. Tseng // Science. – 2012. – V. 335. - P. 1628–1634.428. Wendling, F. Interpretation of interdependencies in epileptic signals using amacroscopic physiological model of the EEG / F. Wendling, F. Bartolomei, J.J.Bellanger, P. Chauvel // Clin Neurophysiol. – 2001. – V. 112. – P. 1201–1218.429. Whittington, M.A. Spatiotemporal patterns of gamma frequency oscillationstetanically induced in the rat hippocampal slice / M.A. Whittington, I.M.Stanford, S.B. Colling, J.G. Jefferys, R.D.
Traub // J. Physiol. – 1997. – V.502(3). – P. 591–607.430. Wilcox, T. Functional activation of the infant cortex during object processing /T. Wilcox, J. Stubbs, A. Hirshkowitz // Neuroimage. – 2012. – V. 62. – P.1833–1840.431. Williams, E.R. Coherence between motor cortical activity and peripheraldiscontinuities during slow finger movements / E.R. Williams, D.S.Soteropoulos, S.N. Baker // J.
Neurophysiol. – 2009. – V. 102. – P. 1296–1309.432. Williamson, S.J. Advances in neuromagnetic instrumentation and studies ofspontaneous brain activity / S.J. Williamson, L. Kaufman // Brain Topogr. –1989. – V. 2. – P. 129–139.433. Williamson, S.J. Support for the alphon hypo-thesis as an organizating principlefor occipital alpha rhythm / S.J. Williamson, Z.L. Lu, J.Z. Wang, D. Karron //Abstracts International Conference on Alpha processes in the brain. - Lubeck.Germany, 1994. – P. 55.434. Williamson, S.J. Study of human occipital alpha-rhythm: the alphon hypothesisand alpha suppression / S.J. Williamson, L.
Kaufman, Z.L. Lu, J.Z. Wang, D.Karron // Int. J. Psychophysiol. – 1997. – V. 26. – P. 63–76.435. Witte, M. Role of local field potentials in encoding hand movement kinematics /Witte M. // J Neurophysiol. – 2011. – V. 106. – P. 1601.436. Wolpaw, J.R. Control of a two-dimensional movement signal by a noninvasivebrain-computer interface in humans / J.R. Wolpaw, D.J. McFarland // Proc. Natl.Acad. Sci. USA. – 2004. – V.
101. – P. 17849–54.437. Womelsdorf, T. The role of neuronal synchronization in selective attention / T.Womelsdorf, P. Fries // Curr. Opin. Neurobiol. – 2007. – V. 17. – P. 154–160.425426438. Womelsdorf, T. Modulation of neuronal interactions through neuronalsynchronization / T. Womelsdorf, J-M. Schoffelen, R. Oostenveld, W. Singer, R.Desimone, A.K. Engel, P. Fries // Science. – 2007.
– V. 316. – P. 1609–1612.439. Wong, R.O. Retinal waves and visual system development / Wong R.O. // Annu.Rev. Neurosci. – 1999. – V. 22. – P. 29–47.440. Wright, J.J. Simulation of electrocortical waves / J.J. Wright, D.T. Liley // Biol–Cybern. – 1995. –V. 72 – P. 347–356.426.
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