Selective activation of visual cortex neurons by fixational eye movements: Implications for neural coding
暂无分享,去创建一个
[1] S. J. Belcher,et al. On the localization of troxler's effect in the visual pathway , 1962 .
[2] J A Foley-Fisher,et al. A relationship between vernier acuity and intersaccadic interval. , 1968, Optica acta.
[3] D. Noton,et al. Eye movements and visual perception. , 1971, Scientific American.
[4] How do we see with moving eyes? , 1972, Bibliotheca ophthalmologica : supplementa ad ophthalmologica.
[5] A. A. Skavenski,et al. Miniature eye movement. , 1973, Science.
[6] E. Matin. Saccadic suppression: a review and an analysis. , 1974, Psychological bulletin.
[7] H. Gerrits,et al. The influence of stimulus movements on perception in parafoveal stabilized vision. , 1974, Vision research.
[8] F. Duffy,et al. Eye movement-related inhibition of primate visual neurons , 1975, Brain Research.
[9] David A. Robinson,et al. Miniature eye movements of fixation in rhesus monkey , 1975, Vision Research.
[10] P. Schiller,et al. Quantitative studies of single-cell properties in monkey striate cortex. I. Spatiotemporal organization of receptive fields. , 1976, Journal of neurophysiology.
[11] Barbara J. Winterson,et al. Microsaccades during finely guided visuomotor tasks , 1976, Vision Research.
[12] A. A. Skavenski,et al. Quality of retinal image stabilization during small natural and artificial body rotations in man , 1979, Vision Research.
[13] J R Bartlett,et al. Luxotonic responses of units in macaque striate cortex. , 1979, Journal of neurophysiology.
[14] B. Bridgeman,et al. The role of microsaccades in high acuity observational tasks , 1980, Vision Research.
[15] R. W. Ditchburn. The function of small saccades , 1980, Vision Research.
[16] R. Steinman,et al. Small saccades serve no useful purpose: Reply to a letter by R. W. Ditchburn , 1980, Vision Research.
[17] R. Wurtz,et al. Vision during saccadic eye movements. I. Visual interactions in striate cortex. , 1980, Journal of neurophysiology.
[18] R. Scobey. Movement sensitivity of retinal ganglion cells in monkey , 1981, Vision Research.
[19] R M Steinman,et al. The precision of gaze. A review. , 1982 .
[20] K Toyama,et al. Integration of retinal and motor signals of eye movements in striate cortex cells of the alert cat. , 1984, Journal of neurophysiology.
[21] D. Snodderly,et al. Eye position during fixation tasks: Comparison of macaque and human , 1985, Vision Research.
[22] J. P. Jones,et al. The two-dimensional spatial structure of simple receptive fields in cat striate cortex. , 1987, Journal of neurophysiology.
[23] D. Snodderly,et al. Studying striate cortex neurons in behaving monkeys: Benefits of image stabilization , 1987, Vision Research.
[24] J. Lund,et al. Anatomical organization of macaque monkey striate visual cortex. , 1988, Annual review of neuroscience.
[25] R. Eckhorn,et al. A new method for the insertion of multiple microprobes into neural and muscular tissue, including fiber electrodes, fine wires, needles and microsensors , 1993, Journal of Neuroscience Methods.
[26] D. Burr,et al. Selective suppression of the magnocellular visual pathway during saccadic eye movements , 1994, Nature.
[27] D. Snodderly,et al. Organization of striate cortex of alert, trained monkeys (Macaca fascicularis): ongoing activity, stimulus selectivity, and widths of receptive field activating regions. , 1995, Journal of neurophysiology.
[28] T. Sejnowski,et al. Reliability of spike timing in neocortical neurons. , 1995, Science.
[29] Bruce Bridgeman,et al. Saccadic suppression relies on luminance information , 1995, Psychological research.
[30] Christof Koch,et al. Temporal Precision of Spike Trains in Extrastriate Cortex of the Behaving Macaque Monkey , 1999, Neural Computation.
[31] D H Hubel,et al. Visual responses in V1 of freely viewing monkeys. , 1996, Cold Spring Harbor symposia on quantitative biology.
[32] D. Snodderly,et al. Response Variability of Neurons in Primary Visual Cortex (V1) of Alert Monkeys , 1997, The Journal of Neuroscience.
[33] M. Gur,et al. Visual Receptive Fields of Neurons in Primary Visual Cortex (V1) Move in Space with the Eye Movements of Fixation , 1997, Vision Research.
[34] D C Van Essen,et al. Neural activity in areas V1, V2 and V4 during free viewing of natural scenes compared to controlled viewing , 1998, Neuroreport.
[35] L. P. O'Keefe,et al. The influence of fixational eye movements on the response of neurons in area MT of the macaque , 1998, Visual Neuroscience.
[36] Nikos K. Logothetis,et al. Microsaccades differentially modulate neural activity in the striate and extrastriate visual cortex , 1998, Experimental Brain Research.
[37] Patrick Cavanagh,et al. A jitter after-effect reveals motion-based stabilization of vision , 1998, Nature.
[38] G B Stanley,et al. Reconstruction of Natural Scenes from Ensemble Responses in the Lateral Geniculate Nucleus , 1999, The Journal of Neuroscience.
[39] M Gur,et al. Physiological properties of macaque V1 neurons are correlated with extracellular spike amplitude, duration, and polarity. , 1999, Journal of neurophysiology.
[40] Microsaccadic eye movements and firing of single cells in the striate cortex of macaque monkeys , 2000, Nature Neuroscience.
[41] F. Mechler,et al. Interspike Intervals, Receptive Fields, and Information Encoding in Primary Visual Cortex , 2000, The Journal of Neuroscience.