David Hubel and Torsten Wiesel Their contributions towards understanding the primary visual cortex

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[2]  D. Hubel,et al.  Sequence regularity and geometry of orientation columns in the monkey striate cortex , 1974, The Journal of comparative neurology.

[3]  D. Hubel,et al.  The period of susceptibility to the physiological effects of unilateral eye closure in kittens , 1970, The Journal of physiology.

[4]  D E Mitchell,et al.  The rate of recovery of vision after early monocular deprivation in kittens , 1978, The Journal of physiology.

[5]  B. R. Payne,et al.  Organization of direction preferences in cat visual cortex , 1981, Brain Research.

[6]  D. Hubel,et al.  Extent of recovery from the effects of visual deprivation in kittens. , 1965, Journal of neurophysiology.

[7]  D. Hubel,et al.  RECEPTIVE FIELDS OF CELLS IN STRIATE CORTEX OF VERY YOUNG, VISUALLY INEXPERIENCED KITTENS. , 1963, Journal of neurophysiology.

[8]  Jonathan Stone,et al.  Hierarchical and parallel mechanisms in the organization of visual cortex , 1979, Brain Research Reviews.

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[13]  G. Poggio,et al.  Binocular interaction and depth sensitivity in striate and prestriate cortex of behaving rhesus monkey. , 1977, Journal of neurophysiology.

[14]  D. Hubel,et al.  Receptive fields, binocular interaction and functional architecture in the cat's visual cortex , 1962, The Journal of physiology.

[15]  V. Mountcastle Modality and topographic properties of single neurons of cat's somatic sensory cortex. , 1957, Journal of neurophysiology.

[16]  D. Hubel,et al.  Receptive fields of single neurones in the cat's striate cortex , 1959, The Journal of physiology.

[17]  D. Hubel,et al.  EFFECTS OF VISUAL DEPRIVATION ON MORPHOLOGY AND PHYSIOLOGY OF CELLS IN THE CATS LATERAL GENICULATE BODY. , 1963, Journal of neurophysiology.

[18]  D. Hubel,et al.  Binocular interaction in striate cortex of kittens reared with artificial squint. , 1965, Journal of neurophysiology.

[19]  D. Whitteridge,et al.  The representation of the visual field on the cerebral cortex in monkeys , 1961, The Journal of physiology.

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[21]  C. R. Michael,et al.  Columnar organization of color cells in monkey's striate cortex. , 1981, Journal of neurophysiology.

[22]  A. Sillito,et al.  A re-evaluation of the mechanisms underlying simple cell orientation selectivity , 1980, Brain Research.

[23]  D. Hubel,et al.  Receptive fields and functional architecture of monkey striate cortex , 1968, The Journal of physiology.

[24]  D. Hubel,et al.  Stereoscopic Vision in Macaque Monkey: Cells sensitive to Binocular Depth in Area 18 of the Macaque Monkey Cortex , 1970, Nature.

[25]  B. Cragg,et al.  The development of synapses in the visual system of the cat , 1975, The Journal of comparative neurology.

[26]  D. Hubel,et al.  Ordered arrangement of orientation columns in monkeys lacking visual experience , 1974, The Journal of comparative neurology.

[27]  D. Hubel,et al.  Uniformity of monkey striate cortex: A parallel relationship between field size, scatter, and magnification factor , 1974, The Journal of comparative neurology.

[28]  H. Barlow,et al.  The mechanism of directionally selective units in rabbit's retina. , 1965, The Journal of physiology.

[29]  D. Hubel,et al.  Plasticity of ocular dominance columns in monkey striate cortex. , 1977, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[30]  D. Hubel,et al.  Comparison of the effects of unilateral and bilateral eye closure on cortical unit responses in kittens. , 1965, Journal of neurophysiology.

[31]  D H HUBEL,et al.  RECEPTIVE FIELDS AND FUNCTIONAL ARCHITECTURE IN TWO NONSTRIATE VISUAL AREAS (18 AND 19) OF THE CAT. , 1965, Journal of neurophysiology.

[32]  D. Ferster A comparison of binocular depth mechanisms in areas 17 and 18 of the cat visual cortex , 1981, The Journal of physiology.