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J. Bolz and C. D. Gilbert. The role of horizontal connections in generating long receptive fields in the cat visual cortex. European Journal of Neuroscience, 1:263--268, 1989.

M. Barchilon Ben-Av and D. Sagi. Perceptual grouping by similarity and proximity: Experimental results can be predicted by intensity autocorrelations. Vision Research, 35:853--866, 1995.

C. Blakemore and E. A. Tobin. Lateral inhibition between orientation detectors in the cat's visual cortex. Experimental Brain Research, 15:439--440, 1972.

M. W. Cannon and S. C. Fullenkamp. Spatial interactions in apparent contrast: Inhibitory effects among grating patterns of different spatial frequencies, spatial positions and orientations. Vision Research, 31:1985--1998, 1991.

M. W. Cannon and S. C. Fullenkamp. Lateral interactions among contrast sensitive mechanisms. Vision Research, 33:1685--1695, 1993.

C. Chubb, G. Sperling, and J. Solomon. Texture interactions determine apparent lightness. Proceedings of the National Academy of Sciences, USA, 86:9631--9635, 1989.

K. K. De Valois. Spatial frequency adaptation can enhance contrast sensitivity. Vision Research, 17:1057--1065, 1977.

R. Eckhorn, R. Bauer, W. Jordan, M. Brosch, W. Kruse, M. Munk, and H. J. Reitbooeck. Coherent oscillations: A mechanism of feature linking in the visual cortex? Biological Cybernetics, 60:121--130, 1988.

D. J. Field, A. Hayes, and R. F. Hess. Contour integration by the human visual system: Evidence for a local ``association field''. Vision Research, 33:173--193, 1993.

C. M. Gray, P. König, A. E. Engel, and W. Singer. Oscillatory response in cat visual coortex exhibit inter-columnar synchornization which reflects global stimulus properties. Nature, 338:334--337, 1989.

A. Grinvald, E. E. Lieke, R. D. Frostig, and R. Hildesheim. Cortical point-spread function and long range interactions revealed by real-time optical imaging of macaque monkey primary visual cortex. Journal of Neuroscience, 14:2545--2568, 1994.

M. W. Greenlee and S. Magnussen. Interaction among spatial frequencies and orientation channels adapted concurrently. Vision Research, 28:1303--1310, 1988.

C. D. Gilbert and T. N. Wiesel. Intrinsic connectivity and receptive field properties in visual cortex. Vision Research, 25:365--374, 1985.

C. D. Gilbert and T. N. Wiesel. Columnar specificity of intrinsic horizontal and corticocortical connections in cat visual cortex. Journal of Neuroscience, 9:2432--2442, 1989.

I. Kovács and B. Julesz. A closed curve is much more than an incomplete one: Effect of closure in figure-ground segmentation. Proceedings of the National Academy of Sciences, USA, 90:7495--7497, 1993.

S. A. Klein and D. M. Levi. Hyperacuity thresholds of 1 sec: Theoretical predictions and empirical validation. Journal of the Optical Society of America A, 2:1170--1190, 1985.

M. Kitano, K. Niiyama, T. Kasamatsu, E. E. Sutter, and A. M. Norcia. Retinotopic and nonretinotopic field potentials in cat visual cortex. Visual Neuroscience, 11:953--977, 1994.

J. J. Knierim and D. C. Van Essen. Neuronal response to static texture patterns in area v1 of the alret monkey. Journal of Neurophysiology, 67:961--968, 1992.

S. LeVay. The patchy intrinsic projections of visual cortex. Progress in Brain Research, 75:147--161, 1988.

G.E. Legge and J. M. Foley. Contrast masking in human vision. Journal of the Optical Society of America, 70:1458--1471, 1980.

T. B. Lawton and C. W. Tyler. On the role of X and simple cells in human contrast processing. Vision Research, 34:659--667, 1994.

G. Mitchison and F. Crick. Long axons within the striate cortex: Their distribution, orientation, and pattern of connections. Proceedings of the National Academy of Sciences, USA, 79:3661--3665, 1982.

L. Maffei and A. Fiorentini. The unresponsive regions of visual cortical receptive fields. Vision Research, 16:1131--1139, 1976.

M. J. Morgan and W. H. N. Hotopf. Perceived diagonals in grids and lattices. Vision Research, 29:1005--1015, 1989.

A. J. Mussap and D. M. Levi. Amblyopic deficits in perception of second-order orientation. Invest. Ophthal. Vis. Sci. (Suppl.), 36, 1995.

B. Moulden. Collator units: Second stage orientational filters. In Higher-order processing in the visual system. Ciba Foundation Symposium 184. Wiley, Chichester, 1994.

J. I. Nelson and B. J. Frost. Intracortical facilitation among co-oriented, co-axially aligned simple cells in cat striate cortex. Experimental Brain Research, 61:54--61, 1985.

J. Nachmias and R. V. Sansbury. Grating contrast: Discrimination may be better than detection. Vision Research, 14:1039--1042, 1974.

U. Polat and A. M. Norcia. Neurophysiological evidence for contrast dependent long range facilitation and suppression in the human visual cortex. Vision Research, 1995. (submitted).

U. Polat and D. Sagi. Lateral interactions between spatial channels: Suppression and facilitation revealed by lateral masking experiments. Vision Research, 33:993--999, 1993.

U. Polat and D. Sagi. The architecture of perceptual spatial interactions. Vision Research, 34:73--78, 1994.

U. Polat and D. Sagi. Spatial interactions in human vision: From near to far via experience-dependent cascades of connections. Proceedings of the National Academy of Sciences, USA, 91:1206--1209, 1994.

U. Polat and D. Sagi. Plasticity of spatial interactions in early vision. in B. Julesz and I. Kovács (editors), Maturational Windows and Adult Cortical Plasticity, SFI Studies in the Science of Complexity, Vol XXIV, 1--15, Addison-Wesley, 1995.

K. S. Rockland and J. S. Lund. Widespread periodic intrinsic connections in the tree shrew visual cortex. Science, 215:1532--1534, 1982.

D. Sagi and S. Hochstein. Lateral inhibition between spatially adjacent spatial-frequency channels? Perception and Psychophysics, 37:315--322, 1985.

J. Solomon, G. Sperling, and C. Chubb. The lateral inhibition of perceived contrasts indifferent to on-center/off-center, but specific to orientation. Vision Research, 33:2671--2683, 1993.

D. J. Tolhurst and L. P. Barfield. Interaction between spatial-frequency channels. Vision Research, 18:951--958, 1978.

D. Y. Ts'o, C. D. Gilbert, and T. N. Wiesel. Relationships between horizontal interactions and functional architecture in cat striate cortex as revealed by cross-correlation analysis. The Journal of Neuroscience, 6:1160--1170, 1986.

R. B. H. Tootel, E. Switkes, M. S. Silverman, and S. L. Hamilton. Functional antomy of macaque striate cortex. ii. retinotopic organization. Journal of Neuroscience, 8:1531--1568, 1988.

A. B. Watson. Summation of gratings patches indicates many types of detectors at one retinal location. Vision Research, 22:17--25, 1982.

A. B. Watson, H. B. Barlow, and J. G. Robson. What does the eye see best? Nature, 302:419--422, 1983.

H. R. Wilson, D. K. McFarlane, and G. C. Phillips. Spatial frequency tuning of orientation selective units estimated by oblique masking. Vision Research, 23:873--882, 1983.

B. Zenger and D. Sagi. Isolating excitatory and inhibitory nonlinear spatial interactions involved in contrast detection. Vision Research, 1995. Submitted.

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