Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985




НазваниеСписок литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985
страница5/8
Дата конвертации30.10.2012
Размер0.49 Mb.
ТипДокументы
1   2   3   4   5   6   7   8

  • Edelman G.M. (1987). Neural Darwinism: the theory of neuronal group selection. New York: Basic Books. 1987.

  • Edelman G.M. (1993). Neural Darwinism: selection and reentrant signaling in higher brain function. // Neuron. 1993. V. 10. P.115-125.

  • Edelman G.M. (2003). Naturalizing consciousness: a theoretical framework. // Proc. Natl. Acad. Sci. U S A. 2003. V. 100. N 9. P.5520-5524.

  • Eeckman F.H., Freeman W.J. (1990). Correlations between unit firing and EEG in the rat olfactory system. // Brain Research. 1990. V. 528. P. 238–244.

  • Eggermont J.J. (2001). Between sound and perception: reviewing the search for a neural code. // Hear. Res. 2001. V. 157. P. 1–42.

  • Eggermont J.J. (1990). The Correlative Brain: Theory and Experiment in Neural Interaction. Berlin, Heidelberg: Springer Verlag. 1990.

  • Eggermont J.J., Aertsen A., Hermes D.J., Johannesma P.I.M. (1981). Spectro-temporal characterization of auditory neurons: redundant or necessary? // Hearing Research. 1981. V. 5. P. 109–121.

  • Ehret G. (1997). The auditory midbrain «shunting yard» of acoustical information processing. // The Central Auditory System / Ehret G., Romand R. (eds.). New York: Oxford University Press. 1997. P. 259–316.

  • Ehret G., Schreiner C.E. (1997). Frequency resolution and spectral integration (critical band analysis) in single units of the cat primary auditory cortex. // J. Comp. Physiol.(А). 1997. V. 181. P. 635–650.

  • Ehret G., Merzenich M.M. (1988). Complex sound analysis (Frequency resolution, filtering and spectral integration) by single units of the inferior colliculus. // Brain Res. Rev. 1988. V. 13. P. 139–163.

  • Eickhoff S.B., Lotze M., Wietek B., Amunts K., Enck P., Zilles K. (2006). Segregation of visceral and somatosensory afferents: an fMRI and cytoarchitectonic mapping study. // Neuroimage. 2006. V. 31. N 3. P. 1004-1014.

  • Ellinger. F. (1941). The Biological Fundamentals of Radiational therapy. N.Y., 1941.

  • Emmanouil T.A., Treisman A. (2008). Dividing attention across feature dimensions in statistical processing of perceptual groups. // Percept Psychophys. 2008. V. 70. N 6. P. 946-954.

  • Engel S. A. (2008). Computational Cognitive Neuroscience of the Visual System. // Current directions in psychological science. 2008. V. 17. N 2. P. 68-72.

  • Engel S.A., Furmanski C.S. (2001). Selective adaptation to color contrast in human primary visual cortex. // J. Neurosci. 2001. V. 21. N 11. P. 3949–3954.

  • Engel S.A., Zhang X., Wandell B.A. (1997). Color tuning in human visual cortex measured using functional magnetic resonance imaging. // Nature. 1997. V. 388. P. 68–71.

  • Engel A.K., Fries P., Konig P., Brecht M., Singer W. (1999). Temporal binding, binocular rivalry, and consciousness. // Consciousness and Cognition. 1999. V. 8. P. 128–151.

  • Engel S. A., Xuemei Zhang, Wandell B. (1997). Colour tuning in human visual cortexmeasured with functional magnetic resonance imaging. // Nature. 1997. V. 388. P. 68-71.

  • Engel S.A. (2005). Adaptation of oriented and unoriented colorselective neurons in human visual areas. // Neuron. 2005. V. 45. P. 613–623.

  • Erlanger J., Gasser H.S. (1937). Electrical signals of nervous activity. Univ. of Pennsylvania Press. Philadelphia.1937. 47 p.

  • Erlhagen W., Bastian A., Jancke D., Riehle A., Schoner G. (1999). The distribution of neuronal population activation (DPA) as a tool to study interaction and integration in cortical representations. // J. Neurosci. Methods. 1999. V. 94. P. 53–66.

  • Euler C. (1947). Selective responses to thermal stimulation of mammalian nerve fibers. // Acta physiol. scand. 1947. V.14. P. 3-75.

  • Evans P.M., Craig J.C. (1991). Tactile attention and the perception of moving tactile stimuli. /// Perception and Psychophys. 1991. V. 49. P. 355–364.

  • Evarts E.V., Bental E., Bihari B., Huttenlocher P.R. (1962). Spontaneous discharge of single neurons during sleep and waking. // Science. 1962. V. 135. P. 727–728.

  • Everts S.D., Verhey J.L., Dau T. (2002). Spectro-temporal processing in the envelope of frequency domain. // J. Acoust. Soc. Am. 2002. V. 112. N 5. P. 2921–2931.

  • Eysenck H.J. (1964). Principles and methods of personality description, classification and diagnosis. // Brit. J. Psychol. 1964. V. 55. N 3. P. 284-294.

  • Fanselow E.E., Nicolelis M.A. (1999). Behavioral modulation of tactile responses in the rat somatosensory system. // J. Neurosci. 1999. V. 19. P. 7603–7616.

  • Fei-Fei L., VanRullen R., Koch C., Perona P. (2005). Why does natural scene categorization require little attention? Exploring attentional requirements for natural and synthetic stimuli. // Visual Cognition. 2005. V. 12. N 6. P. 893-924.

  • Felleman D.J., Van Essen D.C. (1991). Distributed hierarchical processing in the primate cerebral cortex. // Cereb. Cortex. 1991. V. 1. P. 1-47.

  • Felleman D.J., Van Essen D.C. (1987). Receptive field properties of neurons in area V3 of macaque monkey extrastriate cortex. // J. Neurophysiol. 1987. V. 57. N 4. P. 889–920.

  • Fendrich R., Hutsler J.J., Gazzaniga M.S. (2004). Visual and tactile interhemispheric transfer compared with the method of Poffenberger. // Exp. Brain Res. 2004. V. 158. N 1. P. 67-74.

  • Ferretti A., Babiloni C., Gratta C.D., Caulo M., Tartaro A., Bonomo L., Rossini P.M., Romani G.L. (2003). Functional topography of the secondary somatosensory cortex for nonpainful and painful stimuli: an fMRI study. // Neuroimage. 2003. V. 20. N 3. P. 1625-1638.

  • Ferster D., Miller K.D. (2000). Neural mechanisms of orientation selectivity in the visual cortex. // Annual Rev. of Neurosci. 2000. V. 23. P. 441–471.

  • Fischer B. (1972). Optical and neuron basis of visual image transfer: a uniform mathematical treatment of the retinal image and the excitability of the retinal ganglion cells with the aid of the linear systems theory. // Vision Research. 1972. V. 12. P. 1125–1144.

  • Fishman Y.I., Reser D.N., Arezzo J., Steinschneider M. (2000). Complex tone processing in primary auditory cortex of the awake monkey. II. Pitch versus critical band representation. // J. Acoust. Soc. Am. 2000. V. 108. P. 247–262.

  • Fitzpatrick D., Batra R., Stanford T., Kuwada S. (1997). A neuronal population code for sound localization. // Nature. 1997. V. 388. P. 871.

  • Franowicz M.N., Barth D.S. (1995). Comparison of evoked potentials and high-frequency (gamma-band) oscillating potentials in rat auditory cortex. // J. of Neurophysiol. 1995. V. 74. P. 96–112.

  • Franz D.N., Iggo A. (1968). Conduction failure in myelinated and non-myelinated at low-temperatures. // J. Physiol. (L.). 1968. V. 119. N 2. P. 319-345.

  • Freeman R.L., Balakrishnan U., Helfer K.S. (2001). Spatial release from informational masking in speech recognition. // J. Acoust. Soc. Am. 2001. V. 109. N 5. Pt. 1. P. 2112–2122.

  • Freeman W.J. (1968). Patterns of variation in waveform of averaged evoked potentials from prepyriform cortex of cats. // J. of Neurophysiol. 1968. V. 31. P. 1–13.

  • Freeman W.J., Skarda C.A. (1985). Spatial EEG patterns, non-linear dynamics and perception: the Neo- Sherringtonian view. // Brain Res. Rev. 1985. V. 10. P. 147–175.

  • Frey M. (1895). Beiträge zur Sinnesphysiologie der Haut. // Ber. d. König. Säch. Ges. d. Wiss., Math-Phys. Kl. 1895. Bd.47. S.166-184.

  • Freyman R. L., Clifton R. K., Litovsky R. Y. (1991). Dynamic processes in the precedence effect. // J. Acoust. Soc. Am. 1991. V. 90. P. 874-884.

  • Freyman R. L., Keen R. (2006). Constructing and disrupting listeners’ models of auditory space. // J. Acoust. Soc. Am. 2006. V. 120. P. 3957-3965.

  • Frost D.O., Metin C. (1985). Induction of functional retinal projections to the somatosensory system. // Nature, London. 1985. V. 317. P. 162–164.

  • Fujita I. (1993). Columns in the inferotemporal cortex: machinery for visual representation of objects. // Biomed. Res. 1993. V. 14(Suppl. 4). P. 21-27.

  • Furst M., Levine R.A., McGaffigan P.M. (1985). Click lateralization is related to the component of the dichotic brainstem auditory evoked potentials of human subjects. // J. Acoust. Soc. Am. 1985. V. 78. P. 1644–1651.

  • Furukawa S., Xu L., Middlebrooks J.C. (2000). Coding of sound-source location by ensembles of cortical neurons. // J. of Neurosci. 2000. V. 20. P. 1216–1228.

  • Fuster J.M. (2000). Executive frontal functions. // Exper. Brain Res. 2000. V. 133. P. 66–70.

  • Gage N., Roberts T. (2000). Temporal integration: reflections in the M100 of the auditory evoked field. // Neuroreport. 2000. V. 11. P. 2723–2726.

  • Galarreta M., Hestrin S. (1998) Frequency-dependent synaptic depression and the balance of excitation and inhibition in the neocortex. // Nature, Neurosci. 1998. N 1. P. 587–594.

  • Gardner E.P., Palmer C.I., Hamalainen H.A., Warren S. (1992). Simulation of motion on the skin. V. Effect of stimulus temporal frequency on the representation of moving bar patterns in primary somatosensory cortex of monkeys. // J. of Neurophysiol. 1992. V. 67. P. 37–63.

  • Gasser H.S., Erlanger J. (1927). The role played by the sizes of the constitute fibers in a nerve trunk in determining the form of its action potential wave. // Am. J. Physiol. 1927. V. 80. P. 522-547.

  • Gegenfurtner K. R., Rieger J. (2000). Sensory and cognitive contributions of color to the recognition of natural scenes. // Current Biology. 2000. V. 10. P. 805-808.

  • Gegenfurtner K.R. (2003). Cortical mechanisms of colour vision. // Neurosci. 2003. V. 4. P. 563-572.

  • Gegenfurtner K.R., Kiper D.C. (2003). Color vision. // Ann. Rev. Neurosci. 2003. V. 28. P. 183–206.

  • Gegenfurtner K.R., Kiper D.C., Levitt J.B. (1997). Functional properties of neurons in macaque area V3. // J. of Neurophysiol. 1997. V. 77. P. 1906–1923.

  • Gerard R.M. (1958). Color and emotional arousal. // Amer. Psychologist. 1958. V. 13. N 7. 340 p.

  • Gerstner W., Kistler W.M., (2002). Spiking Neuron Models. Single Neurons, Populations, Plasticity (Cambridge University Press). 2002.

  • Ghazanfar A.A., Nicolelis M.A. (2001). The structure and function of dynamic cortical and thalamic receptive fields. // Cerebral Cortex. 2001. V. 11. P. 183–193.

  • Ghose G.M., Freeman R.D. (1992). Oscillatory discharge in the visual system: does it have a functional role? // J. of Neurophysiol. 1992. V. 68. P. 1558–1574.

  • Ghose G.M., Freeman R.D. (1997). Intracortical connections are not required for oscillatory activity in the visual cortex. // Visual Neurosci. 1997. V. 14. P. 963R–979R.

  • Gilbert C.D, Ito M., Kapadia M., Westheimer G. (2000). Interactions between attention, context and learning in primary visual cortex. // Vision Res. 2000. V. 40. P. 1217–1226.

  • Gilbert. C.D., Wiesel T.N. (1990). The influence of contextual stimuli on the orientation selectivity of cells in primary visual cortex of the cat. // Visual Res. 1990. V. 30. P. 1689–1701.

  • Gilkey R., Anderson T. (Eds.) (1997). Binaural and spatial hearing in real and virtual environments. New Jersey: Lawrence Erlbaum Assoc. 1997. 795 p.

  • Gillespie D.C., Kim G., Kandler K. (2005). Inhibitory synapses in the developing auditory system are glutamatergic. // Nature, Neurosci. 2005. N 8. P. 332 – 338.

  • Glasberg B., Moore B. (1986). Auditory filter shape in subjects with unilateral and bilateral cochlear impairment // J. Acoust. Soc. Am. 1986. V. 79. N 4. P. 1026–1033.

  • Glass J.D. (1973). Photically evoked potentials from cat neocortex before and after recovery from visual deprivation. // Exp Neurol. 1973. V. 39. N 1. P. 123-139.

  • Godde B., Hilger T., von Seelen W., Berkefeld T., Dinse H.R. (1995). Optical imaging of rat somatosensory cortex reveals representational overlap as topographic principle. // NeuroReport. 1995. V. 7. P. 24–28.

  • Gold J.I., Knudsen E.I. (2000). A Site of Auditory Experience-Dependent Plasticity in the Neural Representation of Auditory Space in the Barn Owl s Inferior Colliculus. // J. Neurosci. 2000. V. 20. N 9. P. 3469-3486.

  • Goldscheider A. (1886). Histologische Untersuchungen die Endigungen der Hautnerve beim Menschen. // Arch. Anat. Physiol. 1886. Bd.5. S.191-227.

  • Goldscheider A. ( 1884). Die spezifische Energie der Temperaturnerve. // Med. prakt. Dermatol. 1884. Bd.3. S.53-76.

  • Goldstein K. Some experimental observations concerning the influence of colore on the function of the organism. // Occupational therapy and re-habilitation. 1942. 132 p.

  • Goldstein M.H., Hall J.L. (2d), Butterfield B.O. (1968). Single-unit activity in the primary auditory cortex of unanaesthetized cats. // J. Acoust. Soc. Am. 1968. V. 43. P. 444–455.

  • Good M.D., Gilkey R.H. (1996). Sound localization in noise: the effect of signal-to-noise ratio. // J. Acoust. Soc. Am. 1996. V. 99. N 2. P. 1108–1117.

  • Govindan R.B., Raethjen J., Arning K., Kopper F., Deuschl G. (2006). Time delay and partial coherence analysis to identify cortical connectivities. // Biol. Cybernetics. 2006. N 94. P. 262-275.

  • Granit R., Lundberg A. (1947). Heat and cold-sensitive mammalian nerve fibers. Some somatic reflexes to thermostimulation. // Acta physiol. scand. 1947. V. 13. P. 334-346.

  • Grantham D.W. (1997). Auditory motion perception: snapshots revisited // Binaural and spatial hearing in real and virtual environment. / New Jersey: Lawrence Erlbaum associates, Gilkey R.H., Anderson T.R. eds., 1997. P. 295–313.

  • Grassman H. (1853). Zur Theorie der farbenmischung. / Poggendorf's Annalen Physik. Chemie. 1853. N 89. P. 69–84.

  • Gray C.M., McCormick D.A. (1996). Chattering cells: superficial pyramidal neurons contributing to the generation of synchronous oscillations in the visual cortex. // Science. 1996. V. 274. P. 109–113.

  • Green B.G. (1979). Thermo-tactile Interaction: Effects of touch on thermal Localization. / In: Sensory function of the skin of Humans. Kenshalo D.R. (eds.). Plenum press. N.Y.-London. 1979. P. 407-430.

  • Green R.C., Green J., Harrison J.M., Kutner M.H. (1994). Screening for cognitive impairment in older individuals. Validation study of a computer-based test. // Arch Neurol. 1994. V. 51. N 8. P. 779-786.

  • Green W.R., Enger C. (1993). Age-related macular degeneration histopathologicstudies. / The 1992 Lorenz E. Zimmerman Lecture. // Ophthalmology. 1993. V. 100. P. 1519-1535.

  • Green J.S., Sanes D.H. (2003). Early appearance of inhibitory input to the MNTB supports binaural processing during development. // J. Neurophysiol. 2003. V. 90. P. 1479-1488.

  • Gregory R.L. (1972). Cognitive contours. // Nature. 1972. V. 238. P. 51–52.

  • Griffiths T.D., Green G., Rees A., Rees G. (2000). Human brain areas involved in the analysis of auditory movement. // Human Brain Mapping. 2000. V. 9. P. 72–80.

  • Griffiths T.D., Rees G., Rees A., Green G., Witton C., Rowe D., Buchel C., Turner R., Frackowiak R. (1998). Right parietal cortex is involved in perception of sound movement in human. // Nature, Neurosci.1998. V. 1. P. 74–79.

  • Grinvald A., Lieke E.E., Frostig R.D., Hildesheim R. (1994). Cortical point-spread function and long-range lateral interactions revealed by real-time optical imaging of macaque monkey primary visual cortex. // J. Neurosci. V. 14. P. 2545–2568.

  • Grothe B., Klump G.M. (2000). Temporal processing in sensory systems. // Current Opinion in Neurobiology. 2000. V. 10. P. 467–473.

  • Grothe B., Park T.J. (1998). Sensitivity to Interaural Time Differences in the Medial Superior Olive of a Small Mammal, the Mexican Free-Tailed Bat. // J. Neurosci. 1998. V. 18. N 16. P. 6608-6622.

  • Grothe B., (2003). New roles for synaptic inhibition in sound localization. // Nat. Rev. 2003. V. 4. P. 1-11.

  • Gruzelier J., Smith F., Nagy A., Henderson D. (2001). Cellular and humoral immunity, mood and exam stress: the influences of self-hypnosis and personality predictors. // Int. J. Psychophysiol. 2001. V. 42. N 1. P. 55-71.

  • Gulledge A.T., Jaffe D.B. (1998). Dopamine decreases the excitability of layer V pyramidal cells in the rat prefrontal cortex. // J. Neurosci. 1998. V. 18. P. 9139–9151.

  • Halata Z. (1977). The ultrastructure of the sensory nerve endings in the articular capsule of the knee joint of the domestic cat (Ruffini corpuscles and Pacianian corpuskles). // J.Anat. 1977. V.124. N 3. P.717-729.

  • Halligan S.L., Michael T., Clark D.M., Ehlers A. (2003). Posttraumatic stress disorder following assault: the role of cognitive processing, trauma memory, and appraisals. // J. Consult. Clin. Psychol. 2003. V. 71. N 3. P. 419-431.

  • Hamada Y., Miyashita E., Tanaka H. (1999). Gamma-band oscillations in the “barrel cortex” precede rat’s exploratory whisking. // Neurosci. 1999. V. 88. P. 667–671.

  • Hamid P.N., Newport A.G. (1975). Effect of color and physical strength and mood in children. // Pers. & Motor Skills. 1975. 41. P. 910-912.

  • Hancock K.E., Delgutte B. (2004). A physiologically based model of interaural time difference discrimination. // J. Neurosci. 2004. V. 24. N 32. P. 7110-7117.

  • Handwerker H.O., Kilo S., Reeh P.W. (1991). Unresponsive afferent nerve fibers in the sural nerve of the rat. // J.Physiol. 1991. V. 435. P. 229-242.

  • Hansen T. Gegenfurtner K.R. (2005). Classification Images for Chromatic Signal Detection. // J. Optic. Soc. Am. 2005. V. 22. P. 2081-2089.

  • Harrington I.A., Stecker G.C., Macpherson E.A., Middlebrooks J.C. Spatial sensitivity of neurons in the anterior, posterior and primary fields of cat auditory cortex. // Hear Res. 2008. V. 240. N 1-2. P. 22-41.

  • Hartline H.K. (1969). Visual receptors and retinal interaction. // Science.1969. V. 164. P. 270-278.

  • Hartline H.K. (1938). The response of single optic nerve fibers of the vertebrate eye to illumination of the retina. // Am. J. Physiol. 1938. V. 121. P. 400–415.

  • Hartmann W.M., Wittenberg A. (1996). On the externalization of sound images. // J. Acoust. Soc. Am. 1996. V. 99. N 6. P. 3678–3688.

  • Hartung K., Trahiotis C. (2001). Peripheral auditory processing and investigations of the "precedence effect" which utilize successive transient stimuli. // J. Acoust. Soc. Am. 2001. V. 110. N 3. Pt 1. P. 1505-1513.

  • Hashimoto I. (2000). High-frequency oscillations of somatosensory evoked potentials and fields. // Clin. Neurophysiol. 2000. V. 17. P. 309–320.

  • Hausmann M., Corballis M.C., Fabri M., Paggi A., Lewald J. (2005). Sound lateralization in subjects with callosotomy, callosal agenesis, or hemispherectomy. // Brain. Res. Cogn. Brain Res. 2005. V. 25. N 2. P. 537-546.

  • Hautus M.J., Johnson B.W. (2005). Object-related brain potentials associated with the perceptual segregation of a dichotically embedded pitch. // J. Acoust. Soc. Am. 2005. V. 117. N 1. P. 275-280.

  • Hawkins J., Blakeslee S. (2005). On intelligence. Published by Henry Holt and Company. 2005. 261 p.

  • Heffner R.S., Heffner H.E. (1988). Sound localization acuity in the cat: effect of azimuth, signal duration, and test procedure. // Hear Res. 1988. V. 36. N 2-3. P. 221-232.

  • Heil P. (1997). Auditory cortical onset responses revisited. II. Response strength. // J. Neurophysiol. 1997. V. 77. P. 2642–2660.

  • Helmholtz H. (1910). Handbuch der Physiologischen Optik. / Hamburg und Leipzig. Verlag von Leopold Voss. 1910. Bd. 3. S. 3-33.

  • Hendry S.H.C., Reid R.C. (2000). The Koniocellular Pathway in Primate Vision. // Annual Rev. Neurosci. 2000. V. 23. P. 127–153.

  • Hensel H. (1966). Classes of receptor units predominantly related to thermal stimuli. / In: Touch, Heat and Pain. Boston. 1966. P.275-290.

  • Hensel H, Zotterman J. (1951). Action potentials of cold fibers und intracutaneous temperature gradient. // J. Neurophysiol. 1951. V.14. P. 377 -385.

  • Hensel H. (1952). Physiologie der Thermoreception. / Ergebn. Physiol. 1952. Bd.47. S.166-368.

  • Hensel H., Boman K.K. (1960). Afferent impulses in cutaneous sensory nerves in human subjects. / J. Neurophysiol. 1960. V.23. P.564-575.

  • Hensel H., Schafer K. (1974). Effect of calcium on warm and cold receptors. // Pflug. Arch. 1974. V. 352. N 1. P. 87-90.

  • Hering E. (1877). Grundzuge einiger Theorie des Temperatursinns. / Sitzber. Wien. Akad. 1877. Bd.75. Abt.3. S.101-135.

  • Hernander-Peon R., Scherer R.H., Jouvet M. (1965). Modification of electric activity in the cochlear nuclea during “attention” in unanaesthetized cats. // Science. 1965. V. 123. P. 331-332.

  • Herz A., Creutzfeldt O., Fuster J. (1964). Statistical properties of neuron activity in the ascending visual system. // Cybernetic. 1964. V. 2. N 2. P. 61-71.

  • Hewson-Stoate N., Schonwiesner M., Krumbholz K. (2007). Vowel processing evokes a large sustained response anterior to primary auditory cortex. // Eur. J. Neurosci. 2007. V. 24. P. 2661-2671.

  • Heywood C.A., Gaffan D., Cowey A. (1995). Cerebral achromatopsia in monkeys. // Eur. J. Neurosci. 1995. V. 7. P. 1064-1073.

  • Hill P.A., Nelson P.A., Kirkeby O., Hamada H. (2000). Resolution of front-back confusion in virtual acoustic imaging systems. // J. Acoust. Soc. Am. 2000. V. 108. N 6. P. 2901–2910.

  • Hillyard S.A., Münte T.F. (1984). Selective attention to color and location: an analysis with event-related brain potentials. // Percept Psychophys. 1984. V. 36. N 2. P. 185-198.

  • Hilz M.J., Dütsch M., Perrine K., Nelson P.K., Rauhut U., Devinsky O. (2001). Hemispheric influence on autonomic modulation and baroreflex sensitivity. // Ann. Neurol. 2001. V. 49. N 5. P. 575-584.

  • Hirano S., Naito Y., Okazawa H., Kojima H., Honjo I, Ishizu K., Yenokura Y., Nagahama Y., Fukuyama H., Konishi J. (1997). Cortical activation by monaural speech sound stimulation demonstrated by positron emission tomography. // Exp. Brain Res. 1997. V. 113. N 1. P. 75-80.

  • Hirsh I.J., Sherrick C.E. (1961). Perceived order in different sense modalities. // J. Exper. Psychology. 1961. V. 62. P. 423-432.

  • Hofman P.M., Van Opstal A.J. (2002). Bayesian reconstruction of sound localization cues from responses to random spectra. // Biol. Cybern. 2002. V. 86. P. 305–316.

  • Hofman P.M., Vlaming M.S. M. G., Termeer P.J.J. Van Opstal A.J. (2002). A method to induce swapped binaural hearing. // J. Neurosci. Methods. 2002. V. 113. P. 167–179.

  • Holt G.R., Softky W.R., Koch C., Douglas R.J. (1996). Comparison of discharge variability in vitro and in vivo in cat visual cortex neurons. // J. Neurophysiol. 1996. V. 75. P. 1806–1814.

  • Hornbostel E, Wertheimer M. (1920). Uber der Wahrnehmung der Schallrichtung. / Sitzber: Press Akad. Wissensch. 1920. S. 388 - 396.

  • Horton J.C., Adams D.L. (2005). The cortical column: a structure without a function. // Philos. Trans. R. Soc. Lond. B Biol. Sci. 2005. V. 29. N 360(1456). P. 837-862.

  • Hoss R. J. (2005). Dream Language. / Innersource. Ashland, Oregon. 2005. 256 p.

  • Howard R.J., Brammer M., Wright I., Woodruff P.W., Bullmore E.T., Zeki S. (1996). A direct demonstration of functional specialization within motion-related visual and auditory cortex of the human brain. // Curr. Biol. 1996. V. 6. P. 1015-1019.

  • Hubel D.H., Wiesel T.N. (1974). Sequence regularity and geometry of orientation columns in the monkey striate cortex. // J. Comper. Neurol. 1974. V. 158. P. 267–294.

  • Hubel D.H., Livingstone M.S. (1987). Segregation of form, color and stereopsis in primate area 18. // J. Neurosci. 1987. V. 7. P. 3378-3415.

  • Hubel D.H., Livingstone M.S. (1990). Color and contrast sensitivity in the lateral geniculate body and primary visual cortex of the macaque monkey. // J. Neurosci. 1990. V. 10. P. 2223-2237.

  • Hubel D.H., Wiesel T.N. (1962). Receptive fields, binocular interaction and functional architecture in the cat’s visual cortex. // J. Physiol. (London). 1962. V. 160. P. 106–154.

  • Hubener M., Shoham D., Grinvald A., Bonhoeffer T. (1997). Spatial relationships among three columnar systems in cat area 17. // J. Neurosci. 1997. V. 17. P. 9270–9284.

  • Iggo A. (1960). Cutaneous mechanoreceptors with afferent “C” fibers. // J.Physiol. (London). 1960. V. 152. P. 337-380.

  • Iggo A. (1963). New specific sensory structures in hairy skin. // Acta Physiol. (London). 1963. V. 152. P. 337-353.

  • Imig T.J., Bibikov N.G., Poirier P., Samson F.K. (2000). Directionality derived from pinna-cue spectral notches in cat dorsal cochlear nucleus. // J. Neurophisiol. 2000. V. 83. N 2. P. 907–995.

  • Imig T.J., Adrian H.O. (1977). Binaural columns in the primary field (AI) of cat auditory cortex. // Brain Res. 1977. V. 138. P. 241–257.

  • Ingham N.J., Hart H.C., McAlpine D. (2001). Spatial receptive fields of inferior colliculus neurons to auditory apparent motion in free field. // J. Neurophysiol. 2001. V. 85. P. 23–33.

  • Ingham N.J., McAlpine D. (1993). GABAergic inhibition controls neural gain in inferior colliculus neurons sensitive to interaural time difference. // J. Neurosci. 1993. V. 13. P. 2050-2067.

  • Issa N.P., Trepel C., Stryker M.P. (2000). Spatial frequency maps in cat visual cortex. // J. Neurosc. 2000. V. 20. P. 8504–8514.

  • Ivanov K., Konstantinov V., Danilova N. (1982). Thermoreceptor localization in the deep and surface skin layers. // J. Therm. Biol. 1982. V. 7. N 2. P. 75-78.

  • Izak R., Scarbata G., Paschke P. (1999). Sound source localization with an Integrate-and-Fire neural system. / In Proc.: Seventh Inter. Conf. on Microelectronics for Neural, Fuzzy and Bio-Inspired systems (Granada, Spain, April 1999). 1999. P.103.

  • Izhikevich E. M., Edelman G. M. (2008). Large-scale model of mammalian thalamocortical systems. // PNAS. 2008. V. 105. N 9. P. 3593–3598.

  • Jacobs G.H., Neitz J., Krogh K. (1996). Electroretinogram flicker photometry and its applications. // J. Opt. Soc. Am. 1996. V. 13. N 3. P. 641–648.

  • Jacobson G., Poganiatz I., Nelken I. (2001). Synthesizing spatially complex sound in virtual space: an accurate offline algorithm. // J. Neurosci. Methods. 2001. V. 106. P. 29–38.

  • Jancke D. (2000). Orientation formed by a Spot’s Trajectory: a two-dimensional population approach in primary visual cortex. // J. Neurosci. 2000. V. 20. RC 86.

  • Jancke D., Akhavan A.C., Erlhagen W., Giese M., Steinhage A., Schoner G., Dinse H.R. (1996). Population coding in cat visual cortex reveals nonlinear interactions as predicted by a neural field model. Functional Equivalence of Sensory Areas 305. / In: Ch. von der Malsburg, W. von Seelen, J.C. Vorbruggen and B. Sendhoff (eds.), Artificial Neural Networks. ICANN 96. Berlin, Heidelberg: Springer Verlag. 1996. P. 641–648.

  • Jancke J., Erlhagen W., Dinse H.R., Akhavan A.C., Giese M., Steinhage A., Schoner G. (1999). Parametric population representation of retinal location: Neuronal interaction dynamics in cat primary visual cortex. // J. Neurosci. 1999. V. 19. P. 9016–9028.

  • Jarvilehto T., Hamalainen H. (1979). Touch and Thermal Sensations: psichophysical observations and unit Activity in Human Skin Nerves. / In: Sensory Functions of the Skin of human. Proceeding of the Second International Symposium on Skin Sens. Plenum Press. 1979. P. 279.

  • Jeffress L. A., Taylor R. W. (1961). Lateralization is localization. // J. Acoust. Soc. Am. 1961. V. 33. N 4. P. 482-483.

  • Jeffress L.A. (1948). A place code theory of sound localization. // J. Comp. & Physiol. Psychol. 1948. V. 41. P. 35-39.

  • Jenkins W.M., Masterton R.B. (1982). Sound localization: Effects of unilateral lesions in the central auditory system. // J. Neurophysiol. 1982. V. 47. P. 987–1016.

  • Johannesma P., Aertsen A.D., Cranen B., Van Erning L. (1981). The phonochrome: a coherent spectro-temporal representation of sound. // Hear Res. 1981. V. 5. N 2-3. P. 123-145.

  • Johansson P., Hall L., Sikström S., Olsson A. (2005). Failure to detect mismatches between intention and outcome in a simple decision task. // Science. 2005. V. 310. N 5745. P. 116-119.

  • Johnson E.N., Hawken M.J., Shapley R. (2001). The spatial transformation of color in the primary visual cortex of the macaque monkey. // Nature, Neurosci. 2001. V. 4. P. 409–416.

  • Johnson M.R., Johnson M.K. (2008). Top–Down Enhancement and Suppression of Activity in Category-selective Extrastriate Cortex from an Act of Reflective Attention. // MIT Press J. Cognitive Neurosci. 2008. V. 1. P. 1-8.

  • Johnson K.O., Hsiao S.S. (1992). Neural mechanisms of tactual form and texture perception. // Annual Rev. Neurosci. 1992. V. 15. P. 227–250.

  • Joliot M., Rodolfo L., Urs R. (1994). Human oscillatory activity near 40 Hz coexists with cognitive temporal binding. // Proc. Nat. Acad. Sci. (USA). 1994. V. 91. P. 11748-11751.

  • Jones J.P., Palmer L.A. (1987). The two-dimensional spatial structure of simple receptive fields in cat striate cortex. // J. Neurophysiol. 1987. V. 58. P. 1187–1211.

  • Jones M.S., Barth D.S. (1997). Sensory-evoked high-frequency (gamma-band) oscillating potentials in somatosensory cortex of the unanaesthetized rat. // Brain Res. 1997. V. 768. P. 167–176.

  • Jones M.S., MacDonald K.D., Choi B., Dudek F.E., Barth D.S. (2000). Intracellular correlates of fast (>200 Hz) electrical oscillations in rat somatosensory cortex. // J. Neurophysiol. 2000. V. 84. P. 1505–1518.

  • Jung R. (1973). Visual perception and neurophysiology. / Handbook of Sensory Physiology. R. Jung (ed.). New York: Acad. Press. 1973. V. VII/3. P. 3–152.

  • Kahneman D., Treisman A. (1984). Changing views of attention and automaticity. / In R. Parasuraman, R. Davies, & J. Beatty (Eds.), Varieties of attention. New York: Academic Press. 1984. P. 29–61.

  • Kaiser J., Birbaumer N., Lutzenberger W. (2002). Magnetic oscillatory responses to lateralization changes of natural and artificial sounds in human. // Eur. J. Neurosci. 2002. V. 15. P. 345–354.

  • Kaiser J., Lutzenberger W., Birbaumer N. (2000). Simultaneous bilateral mismatch response to right – but leftward sound lateralization. // Neuroreport. 2000. V. 11. P. 2889–2892.

  • Kalt T., Akhavan A.C., Jancke D., Dinse H.R. (1996). Dynamic population coding in rat somatosensory cortex. // Soc. Neurosci. Abstracts. 1996. V. 22. P. 105.

  • Kamitani Y., Tong F. (2005). Decoding the visual and subjective contents of the human brain. // Nature, Neuroscience 2005. V. 8. P. 679–685.

  • Kanizsa G. (1976). Subjective contours. // Sci. Amer. 1976. V. 234. P. 48–52.

  • Kapadia M.K., Westheimer G., Gilbert C.D. (2000). Spatial distribution of contextual interactions in primary visual cortex and in visual perception. // J. Neurophysiol. 2000. V. 84. P. 2048–2062.

  • Kapfner C., Seidl A.H., Schweizer H., Grothe B. (2002). Experience-dependent refinement of inhibitory inputs to auditory coincidence-detector neurons. // Nature, Neurosci. 2002. V. 5. P. 247-253.

  • Kaplan A.Y., Lim J.J., Jin K.S., Park B.W., Byeon J.G., Tarasova S.U. (2005). Unconscious operant conditioning in the paradigm of brain-computer interface based on color perception. // Int. J. Neurosci. 2005. V. 115. N 6. P. 781-802.

  • Kawamura K., Funabashi Y., Morita S., Omata K., Oshio K., Osana Y., Oka K. (2001). Does a Randomly Organized Electrical Circuit Function as a Neuronal System? // Jpn. J. Appl. Phys. 2001. V. 40. P. 2095-2099.  

  • Kawamura K. (1982). Corticocortical connections of the angular gyrus and its adjacent areas. // HBFR. 1982. V. 2. P. 208-214.

  • Kelly D. (1971). Theory of flicker and transient responses: I. Uniform fields. // J. Opt. Soc. Am. 1971. V. 61. P. 537–546.

  • Kenshalo D.R. (1963). Improved method for the psychophysical study of the temperature sense. // Rev. Sci. Instruments. 1963. V. 36. P. 883-886.

  • Kenshalo D.R., Hensel H., Graziadei P., Frusthofer H. (1971). On the anatomy, physiology and psychophysics of the cat’s temperature sensing system. / In: Oral-facial sensory and motor mechanisms. Dumber R., Kavamura I. (eds.). New York. 1971. P. 23- 27.

  • Khalfa S., Collet L. (1996). Functional asymmetry of medial olivocochlear system in humans. Towards a peripheral auditory lateralization. // Neuroreport. 1996. V. 7. N 5. P. 993-996.

  • Khalfa S., Veuillet E., Collet L. (1998). Influence of handedness on peripheral auditory asymmetry. // Eur. J. Neurosci. 1998. V. 10. N 8. P. 2731-2737.

  • Khosla D., Ponton C.W., Eggermont J.J., Kwong B., Don M., Vasama J.P. (2003). Differential ear effects of profound unilateral deafness on the adult human central auditory system. // J. Assoc. Res. Otolaryngol. 2003. V. 4. N 2. P. 235-249.

  • Kiang N.Y., Watanabe T., Thomas E.C., Clark L.F. (1965). Discharge patterns of single fibers in the cat auditory nerve. // MIT, Cambridge. 1965.

  • Kilgard M.P., Merzenich M.M. (1998). Plasticity of temporal information processing in the primary auditory cortex. // Nature, Neurosci. 1998. V. 1. P. 727–731.

  • Kim D.S., Matsuda Y., Ohki K., Ajima A., Tanaka S. (1999). Geometrical and topological relationships between multiple functional maps in cat primary visual cortex. // NeuroReport. 1999. V. 10. P. 2515–2522.

  • King A.J., Jan W.H. Schnupp J.W.H., Doubell T.P. (2001). The shape of ears to come: dynamic coding of auditory space. // Trend in Cognitive Sciences. 2001. V. 5. N 6. P. 261–270.

  • Kiper D.C., Fenstemaker S.B., Gegenfurtner K.R. (1997). Chromatic properties of neurons in macaque area V2. // Vis. Neurosci. 1997. V. 14. P. 1061–1072.

  • Kirman J.H. (1974). Tactile apparent movement: the effects of number of stimulators. // J. Exper. Psychology. 1974. V. 103. P. 1175–1180.

  • Kirschfeld K. (1992) Oscillations in the insect brain: do they correspond to the cortical gamma-waves of vertebrates? // Proc. Nat. Acad. Sci. U.S.A. 1992. V. 89. P. 4764–4768.

  • Kirschfeld K., Feiler R., Wolf-Oberhollenzer F. (1996). Cortical oscillations and the origin of express saccades. // Proc. Royal Soc. London, series B. 1996. V. 263. P. 459–468.

  • Kitzes L., Wrege K., Cassady J. (1980). Patterns of responses of cortical cells to binaural stimulation. // J. Comp. Neurol. 1980. V. 192. P. 455–472.

  • Klein I., Paradis A.L., Poline J.B., Kosslyn S.M., Le Bihan D. (2000). Transient activity in the human calcarine cortex during visual-mental imagery: an event-related fMRI study. // J. Cogn. Neurosci. 2000. N 12 Suppl. 2. P. 15-23.

  • Kleinschmidt A., Lee B.B., Requart M., Frahm J. (1996). Functional mapping of color processing by magnetic resonance imaging of responses to selective p- and m-pathway stimulation. // Exp. Brain Res. 1996. V. 110. P. 279–288.

  • Klinke R. (1987). Gleichtgewichtssinn, Hoeren, Sprechen. / In: Physiologie des Menschen. / Hrsg. von R.F.Schmidt u. G.Thews. Berlin – Heidelberg - New York – London – Paris - Tokyo. 1987. S. 291-319.

  • Knight R.A., Sims-Knight J.E. (1980). Integration of visual patterns in schizophrenics. // J. Abnorm. Psychol. 1980. V. 89. N 5. P. 623-34.

  • Koch Cr. (1991). A Detailed Model of the Primary Visual Pathway in the Cat: Comparison of Afferent Excitatory and Intracortical Inhibitory Connection Schemes for Orientation Selectivity. // J. Neurosci. 1991. V. 11. N 7. P. 1959-1979.

  • Koch C., Crick F. (2004). The Neuronal Basis of Visual Consciousness. / The Visual Neurosciences. 2004. P. 1682-94.

  • Koch C., Tononi G. (2008). Can Machines be Conscious. // IEEE Computer. 2008. N 6. P. 54-59.

  • Koch C., Tsuchiya N. (2007). Attention and consciousness: two distinct brain processes. // Trends in Cognitive Sciences. 2007. V. 11. N 1. P. 16-22.

  • Koerber H.R., Woodbury C.J. (2002). Comprehensive phenotyping of sensory neurons using an ex vivo somatosensory system. // Physiol. Behav. 2002. V. 77. N 4-5. P.589-94.

  • Komatsu H. (1997). Neural representation of color in the inferior temporal cortex of the macaque monkey. / In: The Association Cortex —Structure and Function. Ed. H. Sakata, A. Mikami, J. Fuster. Amsterdam: Harwood Acad. 1997.

  • Konietzny F., Hensel H. (1975). Warm fiber activity in human skin nerves. // Pflüg. Arch. 1975. Bd. 359. N 3. S. 265-267.

  • Konig A., Dieterici C. (1886). Die Grundempfindungen und ihre intensivitats-vertheilung im Spektrum. / Sitzungsberichte Akad. Wiss. Berlin. 1886. S. 805–829.

  • Koning P., Engel A.K., Singer V. (1996). Integration or coincidence detector? The role of the cortical neuron revisited. // Trends Neurosci. 1996. V. 19. P. 130–137.

  • Konishi M., Knudsen E.I. (1979). The oilbird: hearing and echolocation. // Science. 1979. V. 27. N 204(4391). P. 425-427.

  • Konishi M., Takahashi T. T., Wagner H., Sullivan W. E., Carr C. E. (1988). Neurophysiological and anatomical substrates of sound localization in the owl. / In: Auditory Function: Neurobiological Basis of Hearing (E. M. Edelman, W. E. Gall and W. M. Cowans, eds.), J. Wiley, N.-Y. 1988. P. 721-746.

  • Kopecz K., Schoner G., Spengler F., Dinse H.R. (1993). Dynamic properties of cortical, evoked (10 Hz) oscillations. Theory and experiment. // Biological Cybernetics. 1993. V. 69. P. 463–473.

  • Köppl C., Carr C.E. (1997). Low-frequency pathway in the barn owl's auditory brainstem. // J. Comp. Neurol. 1997. V. 378. N 2. P. 265-282.

  • Kosslyn S.M., Thompson W.L., Costantini-Ferrando M.F., Alpert N.M., Spiegel D. (2000). Hypnotic visual illusion alters color processing in the brain. // Am. J. Psychiatry. 2000. V. 157. N 8. P. 1279-1284.

  • Krause F., Eckhorn R. (1983). Receptive fields for motion determined for different types of cat visual neurons. // Neurosci. Letters. 1983. N 14. P. 209.

  • Krauskopf J., Williams D.R., Heeley D.W. (1982). Cardinal directions of color space. // Vision Res. 1982. V. 22. N 9. P. 1123– 1131.

  • Krauskopf J. (1999). Higher order color mechanisms. / In: Color Vision: From Genes to Perception, ed. K.R. Gegenfurtner, L.T. Sharpe. New York: Cambridge Univ. Press. 1999. P. 303– 317.

  • Krauskopf J. (2000). Relative number of long- and middle-wavelength-sensitive cones in the human fovea. // J. Opt. Soc. Am. A. 2000. V. 17. P. 510– 516.

  • Kreiman G., Fried I., Koch C. (2000). Imagery neurons in the human brain. // Nature. 2000. V. 408. P. 357-360.

  • Krone G., Mallot H.A., Palm G., Schuz A. (1986). Spatio-temporal receptive fields: a dynamical model derived from cortical architectonics. // Proc. Royal Soc. London, series B. 1986. V. 226. P. 421–444.

  • Kropotov J.D., Alho K., Näätänen R., Ponomarev V.A., Kropotova O.V., Anichkov A.D., Nechaev V.B. (2000). Human auditory-cortex mechanisms of preattentive sound discrimination. // Neurosci. Lett. 2000. V. 280. N 2. P. 87-90.

  • Krukowski A.E. (2000). A model of cat primary visual cortex and its thalamic input. // Doct. Diss., University of California, San Francisco. 2000.

  • Krumbholz K., Hewson-Stoate N., Schönwiesner M. (2007). Cortical response to auditory motion suggests an asymmetry in the reliance on inter-hemispheric connections between the left and right auditory cortices. // J. Neurophysiol. 2007. V. 97. N 2. P. 1649-1655.

  • Krumbholz K., Schönwiesner M., Rübsamen R., Zilles K., Fink G.R., von Cramon D.Y. (2005). Hierarchical processing of sound location and motion in the human brainstem and planum temporale. // Eur. J. Neurosci. 2005. V. 21. N 1. P. 230-238.

  • Krumbholz K., Nobbe A. (2001). Аsymmetry of masking between noise and iterated rippled noise // J. Acoust. Soc. Am. 2001. V. 110. N 4. P. 2096–2107.

  • Krumbholz K., Patterson R.D., Nobbe A., Fastl H. (2003). Microsecond temporal resolution in monaural hearing without spectral cues. // J. Acoust. Soc. Am. 2003. V. 113. N 5. P. 2790–2800.

  • Kuwada S., Yin T.C. (1983). Binaural interaction in low-frequency neurons in inferior colliculus of the cat. I. Effects of long interaural delays, intensity, and repetition rate on interaural delay function. // J. Neurophysiol. 1983. V. 50. N 4. P. 981-999.

  • Kuwada S., Batra R., Yin T.C., Oliver D.L., Haberly L.B., Stanford T.R. (1997). Intracellular recordings in response to monaural and binaural stimulation of neurons in the inferior colliculus of the cat. // J. Neurosci. 1997. V. 17. P. 7565–7581.

  • Kuwada S., Stanford T. R., Batra R. (1987). Interaural phase-sensitive units in the inferior colliculus of the unanaesthetized rabbit: Effects of changing frequency. // J. Neurophysiol. 1987. V. 57. P. 1338-1360.

  • Langerhans P. (1868). Über die Fragen der menschlichen Haut. // Virchows Arch. 1868. Bd. 44. S.325-337.

  • Langner G., Sama M., Heil P., Schulze H. (1997). Frequency and periodicity are represented in orthogonal maps in the human auditory cortex: evidence from magnetoencephalography. // J. Comp. Physiol. (A). 1997. V. 181. P. 665–676.

  • Langner G. (1997). Temporal processing of pitch in the auditory system. // J. New Music Research. 1997. V. 26. P. 116–132.

  • Lavie P., Levy M., Coolidge F. (1975). Ultradian rhythms in the perception of the spiral aftereffect. // Physiol. Psychol. 1975. V.3. N 2. P. 144-146.

  • Lee B.B., Martin P.R.,Valberg A. (1988). The physiological basis of heterochromatic flicker photometry demonstrated in the ganglion. // Annual Rev. Neurosci. 2003. V. 26. P. 181-206.

  • Lee J., Lee C. (2005). Changes in visual motion perception before saccadic eye movements. // Vision Res. 2005. V. 45. N 11. P. 1447-1457.

  • Legge G.E., Kersten D. (1987). Contrast discrimination in peripheral vision. // J. Opt. Soc. Am. A. 1987. V. 4. N 8. P. 1594-1598.

  • Lele P.P., Weddel G. (1956). The relationship between neurohistology and cutaneous sensibility. // Brain. 1956. V. 76. P.119-154.

  • Lennie P. (2000). Color vision: putting it together. // Curr. Biol. 2000. V. 10. N 16. P. 589–591.

  • Lennie P. (1998). Single units and visual cortical organization. // Perception. 1998. V. 27. P. 889–935.

  • LeVay S., Stryker M.P., Shatz C.J. (1978). Ocular dominance columns and their development in layer IV of the cat’s visual cortex: a quantitative study. // J. Comparative Neurology. 1978. V. 179. P. 223–244.

  • Levine R.A., McGaffigan P.M. (1983). Right-left asymmetries in the human brain stem: auditory evoked potentials. // Electroencephalogr. Clin. Neurophysiol. 1983. V. 55. N 5. P. 532-537.

  • Levitt J.B., Kiper D.C., Movshon J.A. (1994). Receptive fields and functional architecture of macaque V2. // J. Neurophysiol. 1994. V. 71. P. 2517–2542.

  • Lewinski R.J. (1938). An investigation of individual responses to chromatic illumination. // Psychol. 1938. V. 6. P. 155-160.

  • Lieke E.E., Frostig R.D., Arieli A., Ts’o D.Y., Hildesheim R., Grinvald A. (1989). Optical imaging of cortical activity: real-time imaging using extrinsic dye-signals and high resolution imaging based on slow intrinsic-signals. // Annual Rev. Physiol. 1989. V. 51. P. 543–559.

  • Lin C.S., Friedlander M.J., Sherman S.M. (1979). Morphology of physiologically identified neurons in the visual cortex of the cat. // Brain Res. 1979. V. 172. P. 344–348.

  • Litovski R.Y., Delgutte B. (2002). Neural correlates of the precedence effect in the inferior colliculus: effect of localization cues. // J. Neurophysiol. 2002. V. 87. P. 976–994.

  • Litovsky R.Y., Colburn H.S., Yost W.A., Guzman S.J. (1999). The precedence effect. // J. Acoust. Soc. Am. 1999. V. 106. N 4. Pt. 1. P. 1633–1654.

  • Litovsky R.Y., Hawley M.L., Fligor B.J., Zurek P.M. (2000). Failure to unlearn the precedence effect. // J. Acoust. Soc. Am. 2000. V. 108. N 5, Pt 1. P. 2345-2352.

  • Liu W., Suga N. (1997). Binaural and commissural organization of the primary auditory cortex of the mustached bat. // J. Comp. Physiol. A. 1997. V. 181. P. 599-605.

  • Livingstone M.S., Hubel D.H. (1984). Anatomy and physiology of a color system in the primate visual cortex. // J. Neurosci. 1984. V. 4. P. 309-356.

  • Livingstone M.S., Hubel D.H. (1987). Psychophysical evidence for separate channels for perception of form, color, movement and depth. // J. Neurosci. 1987. V. 7. P. 3416-3468.

  • Livingstone M., Hubel D. (1988). Segregation of form, color, movement, and depth: anatomy, physiology, and perception. // Science. 1988. V. 240. P. 740–749.

  • Livingstone M.S. (1998). Mechanisms of direction selectivity in macaque V1. // Neuron. 1998. V. 20. P. 509–526.

  • Loveless N., Vasama J.P., Mäkelä J., Hari R. (1994). Human auditory cortical mechanisms of sound lateralization: III. Monaural and binaural shift responses. // Hear Res. 1994. V. 81. N 1-2. P. 91-99.

  • Loveless N., Levanen S., Jousmaki V., Sams M., Hari R. (1996). Temporal integration in auditory sensory memory: neuromagnetic evidence // EEG Clin. Neurophysiol. 1996. V. 100. P. 220–228.

  • Lu Z.L., Sperling G. (2001). Three-systems theory of human visual motion perception: review and update. // J. Opt. Soc. Am. A. Opt. Image. Sci. Vis. 2001. V. 18. N 9. P. 2331-2370.

  • Lumpkin E.A., Michael J. (2007). Mechanisms of sensory transduction in the skin. // Nature. 2007. V. 445. N 7130. P. 858-865.

  • Lund J.S., Yoshioka T., Levitt J.B. (1993). Comparison of intrinsic connectivity in different areas of macaque monkey cerebral cortex. // Cereb. Cortex. 1993. V. 3. P. 148-162.

  • Luria A.R. (1973). Neuropsychological studies in the USSR. A review (part II). // Proc. Natl. Acad. Sci. U S A. 1973. V. 70. N 4. P. 1278-1283.

  • Luscher M. (1969). The Luscher Color Test. N.Y. 1969. 268 р.

  • Lutkenhoner B., Lamertmann C., Ross B., Steinstrater O. (2001). Tonotopic organization of the human auditory cortex revisited: High-precision neuromagnetic studies. / Physiological and psychophysical of auditory function / Maastricht: Shaker Publishing. BV. Houtsma A., Kohlrausch A., Prijs V., Schoonhoven R. eds. 2001. P. 13.

  • Lutkenhoner B., Steinstrater O. (1998). High-precision neuromagnetic study of the functional organization of the human auditory cortex. // Audiol. Neurolog. 1998. V. 3. P. 191–213.

  • Müller J. (1840). Handbuch für die Physiologie des Menschen für Vorlesungen. 1840. Bd.11. 251 S.

  • MacDonald K.D., Barth D.S. (1995). High frequency (gamma-band) oscillating potentials in rat somatosensory and auditory cortex. // Brain Res. 1995. V. 694. P. 1–12.

  • MacKay D.M. (1958). Perceptual stability of a stroboscopically lit visual field containing self-luminous objects. // Nature, London. 1958. V. 181. P. 507–508.

  • Malach R. (1994). Cortical columns as devices for maximizing neuronal diversity. // Trends in Neuroscience. 1994. V. 17. P. 101–104.

  • Malhotra S., Hall A., Lomber S. (2004). Cortical control of sound localization in the cat: Unilateral cooling deactivation of 19 cerebral areas. // J. Neurophysiol. 2004. V. 92. P. 1625–1643.

  • Malone B., Semple M.N. (2001). Effects of stimulus context on the representation of frequency in the gerbil inferior colliculus. // J. Neurophysiol. 2001. V. 86. P. 1113–1130 (114).

  • Malone B., Scott B.H., Semple M.N. (2002). Context-dependent adaptive coding of interaural phase disparity in the auditory cortex of awake macaques. // J. Neurosci. 2002. V. 22. N 11. P. 4625–4638.

  • Marin-Padilla M. (1970). Prenatal and early postnatal ontogenesis of the human motor cortex: a
  • 1   2   3   4   5   6   7   8

    Похожие:

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconСписок литературы. Вводная литература. Шаскольская М. П. «Кристаллы», М.: Наука, 1985
    Левинштейн и Симин. «Знакомство с полупроводниками», библиотечка "Квант" выпуск 33, М.: Наука, 1984

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconСписок литературы джеммер М. Эволюция понятий квантовой механики. М.: Наука, 1985
    Ландау Л. Д., Лифшиц Е. М теоретическая физика. Гидродинамика. М.: Наука, 1986. T c. 350-359

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconСписок источников и литературы нормативные источники Конституция Российской Федерации. М.,1993. Конституция Республики Башкортостан. Уфа, 2003. Европейская хартия о местном самоуправлении от 15. 10. 1985
    Европейская хартия о местном самоуправлении от 15. 10. 1985 // Местная власть. – Уфа, 1999

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconСписок литературы
    Фоли Дж., вэн Дэм А. Основы интерактивной машинной графики. В 2-х кн. М.: Мир, 1985

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconСписок литературы
    Под редакцией Малкова М. П. «Справочник по физико-техническим основам криогеники» М. «Энергоатомиздат» 1985 г

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconСписок литературы
    СНиП 04. 02-84. Строительные нормы и правила. Водоснабжение. Наружные сети и сооружения. – М.: Стройиздат, 1985. – 136 с

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconБуранов С. Н., Горохов В. В., Карелин В. И., Селемир В. Д
    Ссылки: su 1108608 А, 15. 08. 1984. su 1134998 А, 15. 01. 1985. su 1171938 А, 07. 08. 1985. Ер 0387435 А, 19. 09. 1990

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconСписок литературы и ресурсов Интернета, необходимых для подготовки проекта
    Абрумова А. Г. Анализ состояний психологического кризиса и их динамика./ Психологический журнал, №6, 1985

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 icon«Жемчужины бесед»: Наука; Москва; 1985
    Памятник индо персидской литературы XIV в в изысканной форме перелагает знаменитые на Востоке истории о мудрости, о коварстве женщин,...

    Список литературы Акоев Г. Н., Алексеев Н. П. (1985). Функциональная организация механорецепторов. Л.: Наука. 1985 iconПатентам и товарным знакам (19)
    Варакин л. Е. Системы связи с шумоподобными сигналами. М.: Радио и связь, 1985, с. 16-19. Ru 2248095 C1, 10. 03. 2005. Wo 94/03002...


    Разместите кнопку на своём сайте:
    lib.convdocs.org


    База данных защищена авторским правом ©lib.convdocs.org 2012
    обратиться к администрации
    lib.convdocs.org
    Главная страница