『意識の探求』の参考文献80-92
参考文献80
• Tamura, H. and Tanaka, K. “Visual response properties of cells in
the ventral and dorsal parts of the macque inferotemporal cortex,”
Cerebral Cortex 11:384–399 (2001).
• Tanaka, K. “Inferotemporal cortex and object vision,” Ann. Rev.
Neurosci. 19:109–139 (1996).
• Tanaka, K. “Columnar organization in the inferotemporal cortex.” In:
Cerebral Cortex. Vol. 12. Rockland, K.S., Kaas, J.H., and Peters, A.,
eds., pp. 469–498. New York: Plenum Press (1997).
• Tanaka, K. “Columns for complex visual object features in the inferotemporal
cortex: Clustering of cells with similar but slightly different
stimulus selectivities,” Cerebral Cortex 13:90–99 (2003).
• Tang, S. and Guo, A. “Choice behavior of Drosophila facing contradictory
visual cues,” Science 294:1543–1547 (2001).
• Tang, Y.-P., Shimizu, E., Dube, G.R., Rampon, C., Kerchner, G.A.,
Zhuo, M., Liu, G., and Tsien, J.Z. “Genetic enhancement of learning
and memory in mice,” Nature 401:63–69 (1999).
• Taylor, J.G. The Race for Consciousness. Cambridge, UK: MIT Press
(1998).
• Taylor, J.L. and McCloskey, D.I. “Triggering of preprogrammedmovements
as reactions to masked stimuli,” J. Neurophysiol. 63:439–444
(1990).
• Teller, D.Y. “Linking propositions,” Vision Res. 24:1233–1246 (1984).
• Teller, D.Y. and Pugh, E.N. Jr. “Linking propositions in color vision.”
In: Color Vision: Physiology and Psychophysics. Mollon, J.D. and
Sharpe, L.T., eds., London: Academic Press (1983).
• Thiele, A., Henning, P., Kubschik, M., and Hoffmann, K.-P. “Neural
mechanisms of saccadic suppression,” Science 295:2460–2462 (2002).
• Thiele, A. and Stoner, G. “Neuronal synchrony does not correlate with
motion coherence in cortical area MT,” Nature 23:366–370 (2003).
• Thier P., Haarmeier, T., Treue, S., and Barash, S. “Absence of a
common functional denominator of visual disturbance in cerebellar
disease,” Brain 122:2133–2146 (1999).
参考文献81
• Thomas, O.M., Cumming, B.G., and Parker, A.J. “A specialization
for relative disparity in V2,” Nature Neurosci. 5:472–478 (2002).
• Thompson, K.G. and Schall, J.D. “The detection of visual signals by
macaque frontal eye field during masking,” Nature Neurosci. 2:283–
288 (1999).
• Thompson, K.G., and Schall, J.D. “Antecedents and correlates of visual
detection and awareness in macaque prefrontal cortex,” Vision
Res. 40:1523–1538 (2000).
• Thorpe, S., Fize, D., and Marlot, C. “Speed of processing in the human
visual system,” Nature 381:520–522 (1996).
• Tolias, A.S., Smirnakis, S.M., Augath, M.A., Trinath, T., and Logothetis,
N.K. “Motion processing in the macaque: Revisited with
functional magnetic resonance imaging,” J. Neurosci. 21:8594–8601
(2001).
• Tomita, H., Ohbayashi,M., Nakahara, K., Hasegawa, I., andMiyashita,
Y. “Top-down signal from prefrontal cortex in executive control of
memory retrieval,” Nature 401:699–703 (1999).
• Tong, F. and Engel, S.A. “Interocular rivalry revealed in the human
cortical blind-spot representation,” Nature 411:195–199 (2001).
• Tong, F., Nakayama, K., Vaughan, J.T., and Kanwisher, N. “Binocular
rivalry and visual awareness in human extrastriate cortex,” Neuron
21:753–759 (1998).
• Tong, F., Nakayama, K., Moscovitch,M.,Weinrib, O., and Kanwisher,
N. “Response properties of the human fusiform face area,” Cogn. Neuropsychol.
17:257–279 (2000).
• Tononi, G. and Edelman, G.M. “Consciousness and complexity,” Science
282:1846–1851 (1998).
• Tootell, R.B. and Hadjikhani, N. “Where is ‘dorsal V4’ in human
visual cortex? Retinotopic, topographic, and functional evidence,”
Cerebral Cortex 11:298–311 (2001).
• Tootell, R.B., Hadjikhani, N., Mendola, J.D., Marrett, S., and Dale,
A.M. “From retinotopy to recognition: Functional MRI in human
visual cortex,” Trends Cogn. Sci. 2:174–183 (1998).
参考文献82
• Tootell, R.B., Mendola, J.D., Hadjikhani, N., Ledden, P.J., Liu, A.K.,
Reppas, J.B., Sereno, M.I., and Dale, A.M. “Functional analysis of
V3A and related areas in human visual cortex,” J. Neurosci. 17:7060–
7078 (1997).
• Tootell, R.B., Reppas, J.B., Dale, A.M., Look, R.B., Sereno, M.I.,
Malach, R., Brady, T.J., and Rosen, B.R. “Visual motion aftereffect
in human cortical area MT revealed by functional magnetic resonance
imaging,” Nature 375:139–141 (1995).
• Tootell, R.B. and Taylor, J.B. “Anatomical evidence for MT and additional
cortical visual areas in humans,” Cerebral Cortex 5:39–55
(1995).
• Tranel, D. and Damasio, A.R. “Knowledge without awareness: An
autonomic index of facial recognition by prosopagnosics,” Science
228:1453–1454 (1985).
• Treisman, A. “Features and Objects: The Fourteenth Bartlett Memorial
Lecture,” Quart. J. Exp. Psychology 40A:201–237 (1988).
• Treisman, A. “The binding problem,” Curr. Opinion Neurobiol. 6:171–
178 (1996).
• Treisman, A. “Feature binding, attention and object perception,”
Proc. R. Soc. Lond. B 353:1295–1306 (1998).
• Treisman, A. and Gelade, G. “A feature-integration theory of attention,”
Cogn. Psychol. 12:97–136 (1980).
• Treisman, A. and Schmidt, H. “Illusory conjunctions in the perception
of objects,” Cogn. Psychol. 14:107–141 (1982).
• Treue, S. and Martinez-Trujillo, J.C. “Feature-based attention influences
motion processing gain in macaque visual cortex,” Nature
399:575–578 (1999).
• Treue, S. and Maunsell, J.H.R. “Attentional modulation of visual motion
processing in cortical areas MT and MST,” Nature 382:539–541
(1996).
• Tsal, Y. “Do illusory conjunctions support feature integration theory?
A critical review of theory and findings,” J. Exp. Psychol. Hum.
Percept. Perform. 15:394–400 (1989).
参考文献83
• Tsotsos, J.K. “Analyzing vision at the complexity level,” Behav.Brain
Sci. 13:423–469 (1990).
• Tsunoda, K., Yamane, Y., Nishizaki, M., and Tanifuji, M. “Complex
objects represented in macaque inferotemporal cortex by the combination
of feature columns,” Nature Neurosci. 4:832–838 (2001).
• Tully, T. “Toward a molecular biology of memory: The light’s coming
on!,” Nature Neurosci. 1:543–545 (1998).
• Tully, T. and Quinn, W.G. “Classical conditioning and retention in
normal and mutant Drosophila melanogaster,” J. Comp. Physiol. A
157:263–277 (1985).
• Tulunay-Keesey, ¨U. “Fading of stabilized retina images,” J. Opt. Soc.
Am. 72:440–447 (1982).
• Tulving, E. “Memory and consciousness,” Canadian Psychology 26:1–
26 (1985).
• Tulving, E. “Varieties of consciousness and levels of awareness in memory.”
In: Attention: Selection, Awareness and Control. A Tribute to
Donald Broadbent. Baddeley, A. and Weiskrantz, L., eds., pp. 283–
299. Oxford, UK: Oxford University Press (1993).
• Turing, A. “Computing machinery and intelligence,” Mind 59:433–
460 (1950).
• Ullman, S. “Visual routines,” Cognition 18:97–159 (1984).
• Ungerleider, L.G. and Mishkin, M. “Two cortical visual systems.”
In: Analysis of Visual Behavior. Ingle, D.J., Goodale, M.A., and
Mansfield, R.J.W., eds., pp. 549–586. Cambridge, MA: MIT Press
(1982).
• Vallar, G. and Shallice, T., eds. Neuropsychological Impairments of
Short-Term Memory. Cambridge, UK: Cambridge University Press
(1990).
• Vanduffel, W., Fize, D., Peuskens, H., Denys, K., Sunaert, S., Todd,
J.T., and Orban, G.A. “Extracting 3D from motion: Differences in human
and monkey intraparietal cortex,” Science 298:413–415 (2002).
• Van Essen, D.C. and Gallant, J.L. “Neural mechanisms of form and
motion processing in the primate visual system,” Neuron 13:1–10
(1994).
参考文献84
• Van Essen, D.C., Lewis, J.W., Drury, H.A., Hadjikhani, N., Tootell,
R.B., Bakircioglu, M., and Miller, M.I. “Mapping visual cortex in
monkeys and humans using surface-based atlases,” Vision Res. 41:1359–
1378 (2001).
• VanRullen, R. and Koch, C. “Competition and selection during visual
processing of natural scenes and objects,” J. Vision 3:75–85 (2003a).
• VanRullen, R. and Koch, C. “Visual selective behavior can be triggered
by a feed-forward process,” J. Cogn. Neurosci. 15:209–217
(2003b).
• VanRullen, R. and Koch, C. “Is perception discrete or continuous?”
Trends Cogn. Sci. 7:207–213 (2003c).
• VanRullen, R., Reddy L., and Koch, C. “Parallel and preattentive
processing are not equivalent,” J. Cogn. Neurosci., in press (2004).
• VanRullen, R. and Thorpe, S. “The time course of visual processing:
From early perception to decision making,” J. Cogn. Neurosci.
13:454–461 (2001).
• van Swinderen, B. and Greenspan, R.J. “Salience modulates 20–30 Hz
brain activity in Drosophila,” Nature Neurosci. 6:579–586 (2003).
• Varela, F. “Neurophenomenology: A methodological remedy to the
hard problem,” J. Consc. Studies 3:330–350 (1996).
• Varela, F., Lachaux, J.-P., Rodriguez, E., and Martinerie, J. “The
brainweb: Phase synchronization and large-scale integration,” Nature
Rev. Neurosci. 2:229–239 (2001).
• Velmans, M. “Is human information processing conscious?” Behav.
Brain Sci. 14:651–726 (1991).
• Venables, P.H. “Periodicity in reaction time,” Br. J. Psychol. 51:37–
43 (1960).
• Vgontzas, A.N. and Kales, A. “Sleep and its disorders,” Ann. Rev.
Med. 50:387–400 (1999).
• Vogeley, K. “Hallucinations emerge from an imbalance of self-monitoring
and reality modeling,” Monist 82:626–644 (1999).
• Volkmann, F.C., Riggs, L.A., and Moore, R.K. “Eyeblinks and visual
suppression,” Science 207:900–902 (1980).
参考文献85
• von der Heydt, R., Peterhans, E., and Baumgartner, G. “Illusory contours
and cortical neuron responses,” Science 224:1260–1262 (1984).
• von der Heydt, R., Zhou, H., and Friedman, H.S. “Representation of
stereoscopic edges in monkey visual cortex,” Vision Res. 40:1955–
1967 (2000).
• von der Malsburg, C. “The correlation theory of brain function.” MPI
Biophysical Chemistry, Internal Report 81–2 (1981). Reprinted in
Models of Neural Networks II, Domany, E., van Hemmen, J.L., and
Schulten, K., eds. Berlin: Springer (1994).
• von der Malsburg, C. “Binding in models of perception and brain
function,” Curr. Opin. Neurobiol. 5:520–526 (1995).
• von der Malsburg, C. “The what and why of binding: The modeler’s
perspective,” Neuron 24:95–104 (1999).
• von Economo, C. and Koskinas, G.N. Die Cytoarchitektonik der Hirnrinde
des erwachsenen Menschen. Wien, Austria: Julius Springer
(1925).
• von Helmholtz, H. Handbook of Physiological Optics. New York: Dover.
(1962). Translation of Handbuch der physiologischen Optik. 3 volumes,
ed. and trans. by Southall, J.P.C., Hamburg, Voss, 1856, 1860,
and 1988.
• Von Senden, M. Space and Sight: The Perception of Space and Shape
in the Congenitally Blind Before and After Operation. Glencoe, IL:
Free Press (1960).
• Vuilleumier, P., Armony, J.L., Clarke, K., Husain, M., Driver, J.,
and Dolan, R.J. “Neural response to emotional faces with and without
awareness: Event-related fMRI in a parietal patient with visual
extinction and spatial neglect,” Neuropsychologia 40:156–166 (2002).
• Vuilleumier, P., Armony, J.L., Driver, J., and Dolan, R.J. “Effects
of attention and emotion on face processing in the human brain: An
event-related fMRI study,” Neuron 30:829–841 (2001).
• Vuilleumier, P., Hester, D., Assal, G., and Regli, F. “Unilateral spatial
neglect recovery after sequential strokes,” Neurol. 46:184–189 (1996).
• Wachtler, T., Sejnowski, T.J., and Albright, T.D. “Representation
of color stimuli in awake macaque primary visual cortex,” Neuron
37:681–691 (2003).
参考文献86
• Wada, Y. and Yamamoto, T. “Selective impairment of facial recognition
due to a haematoma restricted to the right fusiform and lateral
occipital region,” J. Neurol. Neurosurg. Psychiatry 71:254–257
(2001).
• Wade, A.R., Brewer, A.A., Rieger, J.W., and Wandell, B.A. “Functional
measurements of human ventral occipital cortex: Retinotopy
and colour,” Phil. Trans. R. Soc. Lond. B 357:963–973 (2002).
• Walther, D., Itti, L., Riesenhuber, M., Poggio, T., and Koch, C. “Attentional
selection for object recognition—A gentle way.” In: Biologically
Motivated Computer Vision. B¨ulthoff, H.H., Lee, S.-W., Poggio,
T., and Wallraven, C., eds., pp. 472–479. Berlin: Springer (2002).
• Wandell, B.A. Foundations of Vision. Sunderland, MA: Sinauer (1995).
• Wang, G., Tanaka, K., and Tanifuji, M. “Optical imaging of functional
organization in the monkey inferotemporal cortex,” Science
272:1665–1668 (1996).
• Warland, D.K., Reinagel, P., and Meister, M. “Decoding visual information
from a population of retinal ganglion cells,” J. Neurophysiol.
78:2336–2350 (1997).
• Watanabe, T., Harner, A.M., Miyauchi, S., Sasaki, Y., Nielsen, M.,
Palomo, D., and Mukai, I. “Task-dependent influences of attention on
the activation of human primary visual cortex,” Proc. Natl. Acad.
Sci. USA 95:11489–11492 (1998).
• Watanabe, M. and Rodieck, R.W. “Parasol and midget ganglion cells
of the primate retina,” J. Comp. Neurol. 289:434–454 (1989).
• Watkins, J.C. and Collingridge, G.L., eds. The NMDA Receptor. Oxford,
UK: IRL Press (1989).
• Watson, L. Jacobson’s Organ and the Remarkable Nature of Smell.
New York: Plume Books (2001).
• Webster, M.J., Bachevalier, J., and Ungerleider, L.G. “Connections of
inferior temporal areas TEO and TE with parietal and frontal cortex
in macaque monkeys,” Cerebral Cortex 4:470–483 (1994).
• Wegner, D.M. The Illusion of Conscious Will. Cambridge, MA: MIT
Press (2002).
参考文献87
• Weiskrantz, L. “Blindsight revisited,” Curr. Opinion Neurobiol. 6:215–
220 (1996).
• Weiskrantz, L. Consciousness Lost and Found. Oxford, UK: Oxford
University Press (1997).
• Weller, L.,Weller, A., Koresh-Kamin, H., and Ben-Shoshan, R.“Menstrual
synchrony in a sample of working women,” Psychoneuroendocrinology
24:449–459 (1999).
• Wen, J., Koch, C., and Braun, J. “Spatial vision thresholds in the
near absence of attention,” Vision Res. 37:2409–2418 (1997).
• Wertheimer, M. “Experimentelle Studien ¨uber das Sehen von Bewegung,”
Z. Psychologie 61:161–265 (1912).
• Wessinger, C.M., Fendrich, R., and Gazzaniga, M.S. “Islands of residual
vision in hemianopic patients,” J. Cogn. Neurosci. 9:203–211
(1997).
• Westheimer, G. and McKee, S.P. “Perception of temporal order in
adjacent visual stimuli,” Vision Res. 17:887–892 (1977).
• Whinnery, J.E. and Whinnery, A.M. “Acceleration-induced loss of
consciousness,” Archive Neurol. 47:764–776 (1990).
• White, C. “Temporal numerosity and the psychological unit of duration,”
Psychol. Monographs: General & Appl. 77:1–37 (1963).
• White, C. and Harter, M.R. “Intermittency in reaction time and perception,
and evoked response correlates of image quality,” Acta Psychol.
30:368–377 (1969).
• White, E.L. Cortical Circuits. Boston: Birkh¨auser (1989).
• Wigan, A.L. “Duality of the mind, proved by the structure, functions,
and diseases of the brain,” Lancet 1 :39–41 (1844).
• Wilken, P.C. “Capacity limits for the detection and identification of
change: Implications for models of visual short-term memory.” Ph.D.
Thesis. University of Melbourne, Australia (2001).
• Wilkins, A.J., Shallice, T., and McCarthy, R. “Frontal lesions and
sustained attention,” Neuropsychologia 25:359–65 (1987).
• Williams, D.R., MacLeod, D.E.A., and Hayhoe, M.M. “Foveal tritanopia,”
Vision Res. 21:1341–1356 (1981).
参考文献88
• Williams, D.R., Sekiguchi, N., Haake, W., Brainard, D., and Packer,
O. “The cost of trichromacy for spatial vision.” In: Pigments to
Perception. Lee, B. and Valberg, A., eds., pp. 11–22. New York:
Plenum Press (1991).
• Williams, S.R. and Stuart, G.J. “Dependence of EPSP efficacy on
synapse location in neocortical pyramidal neurons,” Science 295:1907–
1910 (2002).
• Williams, S.R. and Stuart, G.J. “Role of dendritic synapse location in
the control of action potential output,” Trends Neurosci. 26:147–154
(2003).
• Williams, T. The Milk Train Doesn’t Stop Here Anymore. Norfolk,
CT: A New Directions Book (1964).
• Williams, Z.M., Elfar, J.C., Eskandar, E.N., Toth, L.J., and Assad,
J.A. “Parietal activity and the perceived direction of ambiguous apparent
motion,” Nature Neurosci. 6:616–623 (2003).
• Wilson, B.A. and Wearing, D. “Prisoner of consciousness: A state
of just awakening following Herpes Simplex Encephalitis.” In: Broken
Memories: Neuropsychological Case Studies. Campbell, R. and
Conway, M., eds., pp. 15–30. Oxford, UK: Blackwell (1995).
• Wilson, H.R., Levi, D., Maffei, L., Rovamo, J., and DeValois, R. “The
Perception of Form: Retina to Striate Cortex.” In: Visual Perception:
The Neurophysiological Foundations. Spillman, L. and Werner, J.S.,
eds., pp. 231–272. San Diego, CA: Academic Press (1990).
• Wilson, M.A. and McNaughton, B.L. “Dynamics of the hippocampal
ensemble code for space,” Science 261:1055–1058 (1993).
• Wittenberg, G.M. and Tsien, J.Z. “An emerging molecular and cellular
framework for memory processing by the hippocampus,” Trends
Neurosci. 25:501–505 (2002).
• Wojciulik, E. and Kanwisher, N. “Implicit but not explicit feature
binding in a Balint’s patient,” Visual Cognition 5:157–181 (1998).
• Wolfe, J.M. “Reversing ocular dominance and suppression in a single
flash,” Vision Res. 24:471–478 (1984).
• Wolfe, J.M. “‘Effortless’ texture segmentation and ‘parallel’ visual
search are not the same thing,” Vision Res. 32:757–763 (1992).
参考文献89
• Wolfe, J.M. “Guided search 2.0: A revised model of visual search,”
Psychon. Bull. Rev. 1:202–238 (1994).
• Wolfe, J.M. “Visual Search.” In: The Psychology of Attention. Pashler,
H., ed., pp. 13–73. Cambridge, MA: MIT Press (1998a).
• Wolfe, J.M. “Visual Memory: What do you know about what you
saw?” Curr. Biol. 8:R303–R304 (1998b).
• Wolfe, J.M. “Inattentional amnesia.” In: Fleeting Memories. Coltheart,
V., ed., pp. 71–94. Cambridge, MA: MIT Press (1999).
• Wolfe, J.M. and Bennett, S.C. “Preattentive object files: Shapeless
bundles of basic features,” Vision Res. 37:25–44 (1997).
• Wolfe, J.M. and Cave, K.R. “The psychophysical evidence for a binding
problem in human vision,” Neuron 24:11–17 (1999).
• Wong, E. and Mack, A. “Saccadic programming and perceived location,”
Acta Psychologica 48:123–131 (1981).
• Wong-Riley, M.T.T. “Primate visual cortex: Dynamic metabolic organization
and plasticity revealed by cytochrome oxidase.” In: Cerebral
Cortex. Vol. 10. Peters, A. and Rockland, K.S., eds., pp. 141–200.
New York: Plenum Press (1994).
• Woolf, N.J. “Cholinergic transmission: Novel signal transduction.”
In: Neurochemistry of Consciousness. Perry, E., Ashton, H., and
Young, A., eds., pp. 25–41. Amsterdam: John Benjamins (2002).
• Wu, M.-F., Gulyani, S.A., Yau, E., Mignot, E., Phan, B., and Siegel,
J.M. “Locus coeruleus neurons: Cessation of activity during cataplexy,”
Neurosci. 91:1389–1399 (1999).
• Wurtz, R.H., Goldberg, M.E., and Robinson, D.L. “Brain mechanisms
of visual attention,” Sci. Am. 246:124–135 (1982).
• Yabuta, N.H., Sawatari, A., and Callaway, E.M. “Two functional
channels from primary visual cortex to dorsal visual cortical areas,”
Science 292:297–300 (2001).
• Yamagishi, N., Anderson, S.J., and Ashida H. “Evidence for dissociation
between the perceptual and visuomotor systems in humans,”
Proc. R. Soc. Lond. B 268:973–977 (2001).
参考文献90
• Yamamoto, M., Wada, N., Kitabatake, Y., Watanabe, D., Anzai, M.,
Yokoyama, M., Teranishi, Y., and Nakanishi, S. “Reversible suppression
of glutamatergic neurotransmission of cerebellar granule cells in
vivo by genetically manipulated expression of tetanus neurotoxin light
chain,” J. Neurosci. 23:6759–6767 (2003).
• Yang, Y., Rose, D., and Blake, R. “On the variety of percepts associated
with dichoptic viewing of dissimilar monocular stimuli,” Perception
21:47–62 (1992).
• Young, M.P. “Connectional organisation and function in the macaque
cerebral cortex. In: Cortical Areas: Unity and Diversity, Sch¨uz, A.
and Miller, R., eds., pp. 351–375. London: Taylor and Francis (2002).
• Young, M.P. and Yamane, S. “Sparse population coding of faces in
the inferotemporal cortex,” Science 256:1327–1331 (1992).
• Yund, E.W., Morgan, H., and Efron, R. “The micropattern effect and
visible persistence,” Perception & Psychophysics 34:209–213 (1983).
• Zafonte, R.D. and Zasler, N.D. “The minimally conscious state: Definition
and diagnostic criteria,” Neurology 58:349–353 (2002).
• Zeki, S. “Color coding in rhesus monkey prestriate cortex,” Brain Res.
27:422–427 (1973).
• Zeki, S. “Functional organization of a visual area in the posterior bank
of the superior temporal sulcus of the rhesus monkey,” J. Physiol.
236:549–573 (1974).
• Zeki, S.“Colour coding in the cerebral cortex: The responses of wavelengthselective
and color-coded cells in monkey visual cortex to changes in
wavelength composition,” Neurosci. 9:767–781 (1983).
• Zeki, S. “A century of cerebral achromatopsia,” Brain 113:1721–1777
(1990).
• Zeki, S. “Cerebral akinetopsia (Visual motion blindness),” Brain 114:811–
824 (1991).
• Zeki, S. A Vision of the Brain. Oxford, UK: Oxford University Press
(1993).
• Zeki, S. “The motion vision of the blind,” Neuroimage 2:231–235
(1995).
参考文献91
• Zeki, S. “Parallel processing, asynchronous perception, and a distributed
system of consciousness in vision,” Neuroscientist 4:365–372
(1998).
• Zeki, S. “Localization and globalization in conscious vision,” Ann.
Rev. Neurosci. 24:57–86 (2001).
• Zeki, S. “Improbable areas in the visual brain,” Trends Neurosci.
26:23–26 (2003).
• Zeki, S. and Bartels, A. “Toward a theory of visual consciousness,”
Consc. & Cognition 8:225–259 (1999).
• Zeki, S., McKeefry, D.J., Bartels, A., and Frackowiak, R.S.J. “Has a
new color area been discovered?” Nature Neurosci. 1:335–336 (1998).
• Zeki, S. and Moutoussis, K. “Temporal hierarchy of the visual perceptive
systems in the Mondrian world,” Proc. R. Soc. Lond. B
264:1415–1419 (1997).
• Zeki, S. and Shipp, S. “The functional logic of cortical connections,”
Nature 335:311–317 (1988).
• Zeki, S., Watson, J.D., Lueck, C.J., Friston, K.J., Kennard, C., and
Frackowiak, R.S.J. “A direct demonstration of functional specialization
in human visual cortex,” J. Neurosci. 11:641–649 (1991).
• Zeki, S., Watson, J.D., and Frackowiak, R.S.J. “Going beyond the
information given: The relation of illusory motion to brain activity,”
Proc. Roy. Soc. Lond. B 252:215–222 (1993).
• Zeman, A. “Consciousness,” Brain 124:1263–1289 (2001).
• Zhang, K., Ginzburg, I., McNaughton, B.L., and Sejnowski, T.J. “Interpreting
neuronal population activity by reconstruction: Unified
framework with application to hippocampal place cells,” J. Neurophysiol.
79:1017–1044 (1998).
• Zihl J., von Cramon, D., and Mai, N. “Selective disturbance of movement
vision after bilateral brain-damage,” Brain 106:313–340 (1983).
• Zipser, D. and Andersen, R.A. “A back-propagation programmed network
that simulates response properties of a subset of posterior parietal
neurons,” Nature 331:679–684 (1988).
参考文献92
• Zrenner, E. Neurophysiological Aspects of Color Vision in Primates:
Comparative Studies on Simian Retinal Ganglion Cells and the Human
Visual System. Berlin: Springer (1983).