An analysis of orientation selectivity in the cat's visual cortex (original) (raw)
References
Andrews, D.P.: Perception of contour orientation in the central fovea. Part I: short lines. Vision Res. 7, 975–997 (1967) Google Scholar
Barlow, H.B., Blakemore, C., Pettigrew, J.D.: The neural mechanism of binocular depth discrimination. J. Physiol. (Lond.) 193, 327–342 (1967) Google Scholar
Benevento, L.A., Creutzfeldt, O.D., Kuhnt, U.: Significance of intracortical inhibition in the visual cortex. Nature New Biology 238, 124–126 (1972) Google Scholar
Blakemore, C., Campbell, F.W.: On the existence of neurones in the human visual system selectively sensitive to the orientation and size of retinal images. J. Physiol. (Lond.) 203, 237–260 (1969) Google Scholar
Blakemore, C., Carpenter, R.H.S., Georgeson, M.A.: Lateral inhibition between orientation detectors in the human visual system. Nature (Lond.) 228, 37–39 (1970) Google Scholar
Blakemore, C., Cooper, G.F.: Development of the brain depends on the visual environment. Nature (Lond.) 228, 477–478 (1970) Google Scholar
Blakemore, C., Fiorentini, A., Maffei, L.: A second neural mechanism of binocular depth discrimination. J. Physiol. (Lond.) 226, 725–749 (1972) Google Scholar
Blakemore, C., Tobin, E.A.: Lateral inhibition between orientation detectors in the cat's visual cortex. Exp. Brain Res. 15, 439–440 (1972) Google Scholar
Burns, B.D.: The mammalian cerebral cortex. London: Edward Arnold 1958 Google Scholar
Campbell, F.W., Cleland, B.G., Cooper, G.F., Enroth-Cugell, C.: The angular selectivity of visual cortical cells to moving gratings. J. Physiol. (Lond.) 198, 237–250 (1968) Google Scholar
Campbell, F.W., Kulikowski, J.J.: Orientational selectivity of the human visual system. J. Physiol. (Lond.) 187, 437–445 (1966) Google Scholar
Campbell, F.W., Kulikowski, J.J., Levinson, J.: The effect of orientation on the visual resolution of gratings. J. Physiol. (Lond.) 187, 427–436 (1966) Google Scholar
Campbell, F.W., Maffei, L.: The tilt after-effect: a fresh look. Vision Res. 11, 833–840 (1971) Google Scholar
Campbell, F.W., Maffei, L., Piccolino, M.: The contrast sensitivity of the cat. J. Physiol. (Lond.) 229, 719–731 (1973) Google Scholar
Dreher, B.: Hypercomplex cells in the cat's striate cortex. Invest. Ophthal. 11, 355–356 (1972) Google Scholar
Henry, G.H., Bishop, P.O., Tupper, R.M., Dreher, B.: Orientation specificity and response variability of cells in the striate cortex. Vision Res. 13, 1771–1779 (1973) Google Scholar
Hoffman, K.P., Stone, J.: Conduction velocity of afferents to cat visual cortex: A correlation with cortical receptive field properties. Brain Res. 32, 460–466 (1971) Google Scholar
Howard, I.P., Templeton, W.B.: Human spatial orientation. New York: John Wiley 1966 Google Scholar
Hubel, D.H., Wiesel, T.N.: Receptive fields, binocular interaction and functional architecture in the cat's visual cortex. J. Physiol. (Lond.) 160, 106–154 (1962) Google Scholar
Hubel, D.H., Wiesel, T.N.: Receptive fields and functional architecture in two non-striate visual areas (18 and 19) of the cat. J. Neurophysiol. 28, 229–289 (1965) Google Scholar
Hubel, D.H., Wiesel, T.N.: Receptive fields and functional architecture of monkey striate cortex. J. Physiol. (Lond.) 195, 215–243 (1968) Google Scholar
Maffei, L., Campbell, F.W.: Neurophysiological localization of the vertical and horizontal visual coordinates in man. Science 167, 386–387 (1970) Google Scholar
Noda, H., Creutzfeldt, O.D., Freeman, R.B., Jr.: Binocular interaction in the visual cortex of awake cats. Exp. Brain Res. 12, 406–421 (1971a) Google Scholar
Noda, H., Freeman, R.B., Jr., Gies, B., Creutzfeldt, O.D.: Neuronal responses in the visual cortex of awake cats to stationary and moving targets. Exp. Brain Res. 12, 389–405 (1971b) Google Scholar
Perkel, D.H., Gerstein, G.L., Moore, G.P.: Neurological spike chains and stochastic point processes. I. The single spike chain. Biophys. J. 7, 391–418 (1967) Google Scholar
Pettigrew, J.D., Nikara, T., Bishop, P.O.: Responses to moving slits by single units in cat striate cortex. Exp. Brain Res. 6, 373–390 (1968) Google Scholar