References

1

J. J. Atick, Z. Li, and A. N. Redlich. What does post-adaptation color appearance reveal about cortical color representation, Vision Research, 33:123--129, 1993.

2

H. B. Barlow and P. Foldiak. Adaptation and decorrelation in the cortex, The Computing Neuron. In R. Durbin, C. Miall, and G. Mitchison, editors, Addison-Wesley, New York, NY, 1989.

3

F. W. Campbell and L. Maffei. The tilt after-effect: A fresh look, Vision Research, 11:833--840, 1971.

4

R. H. S. Carpenter and C. Blakemore. Interactions between orientations in human vision, Experimental Brain Research, 18:287--303, 1973.

5

D. W. Dong. Dynamic properties of neural network with adapting synapses, Proc International Joint Conference on Neural Networks, Seattle, 2:255--260, 1991.

6

D. W. Dong. Dynamic Properties of Neural Networks, PhD thesis, University Microfilms International, Ann Arbor, MI, 1991.

7

D. W. Dong. Anti-Hebbian dynamics and total recall of associative memory, Proc World Congress on Neural Networks, Portland, 2:275--279, 1993.

8

D. W. Dong. Associative decorrelation dynamics in visual cortex, Lawrence Berkeley Laboratory Technical Report LBL-34491, 1993.

9

D. W. Dong. Associative decorrelation dynamics: A theory of self-organization and optimization in feedback networks. In G. Tesauro, D. S. Touretzky, and T. K. Leen, editors, Advances in Neural Information Processing Systems 7, 925--392, MIT Press, Cambridge, MA, 1994.

10

D. W. Dong and J. J. Hopfield. Dynamic properties of neural networks with adapting synapses, Network: Computation in Neural Systems, 3:267--283, 1992.

11

J. J. Gibson and M. Radner. Adaptation, after-effect and contrast in the perception of tilted lines, Journal of Experimental Psychology, 20:453--467, 1937.

12

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

13

C. D. Gilbert and T. N. Wiesel. The influence of contextual stimuli on the orientation selectivity of cells in primary visual cortex of the cat, Vision Research, 30:1689--1701, 1990.

14

D. H. Hubel and T. N. Wiesel. Receptive fields, binocular interactions, and functional architecture in the cat's visual cortex, Journal of Physiology, 160:106--154, 1962.

15

D. H. Hubel and T. N. Wiesel. Shape and arrangement of columns in cat's striate cortex, Journal of Physiology, 165:559--568, 1963.

16

R. Linsker. From basic network principles to neural architecture ..., Proceedings of the National Academy of Sciences USA, 83:7508 8390 8779, 1986.

17

R. Linsker. An application of the principle of maximum information preservation to linear systems. In D. S. Touretzky, editor, Advances in Neural Information Processing Systems 1, 186--194, Morgan Kaufman, San Mateo, CA, 1989.

18

H. J. Luhmann, L. Martinez, and W. Singer. Development of horizontal intrinsic connections in cat striate cortex, Experimental Brain Research, 63:443--448, 1986.

19

B. Skottun, A. Bradley, G. Sclar, I. Ohzawa, and R. Freeman. The effects on contrast on visual orientation and spatial frequency discrimination: A comparison of single cells and behaviour, Journal of Neurophysiology, 57:773--786, 1987.

20

D. J. Tolhurst and P. G. Thompson. Orientation illusions and after-effects: Inhibition between channels, Vision Research, 15:967--972, 1975.

21

M. A. Webster and J. D. Mollon. Change in colour appearance following post-receptoral adaptation, Nature, 349:235--238, 1991.

22

U. Wehmeier, D. W. Dong, C. Koch, D. C. Van Essen. Modeling the mammalian visual system. In C. Koch and I. Segev, editors, Methods in Neuronal Modeling: From Synapses to Networks, 335--360, MIT Press, Cambridge, MA, 1989.

23

G. Westheimer. Simultaneous orientation contrast for lines in the human fovea, Vision Research, 30:1913--1921, 1990.