References

1

J. S. Albus. Outline for a theory of intelligence. IEEE Transactions on Systems, Man, and Cybernetics 21:473--509, 1991.

2

S. M. Anstis. and Vilayanur S. Ramachandran Entrained path deflection in apparent motion. Vision Research 26:1731--1739, 1986.

3

S. R. Bodnarenko and L. M. Chalupa. Stratification of On and Off ganglion cell dendrites depends on glutamate-mediated afferent activity in the developing retina. Nature 364:144--146, 1993.

4

B. J. Frost. Time to collision sensitive neurons in nucleus rotundus of pigeons. Conference talk, Workshop on Binocular Stereopsis and Optic Flow, York University, Toronto, Canada, 1993.

5

S. Grossberg. A solution of the figure-ground problem for biological vision. Neural Networks 6:463--483, 1993.

6

G. A. Kaplan. Kinetic disruption of optical texture: The perception of depth at an edge. Perception & Psychophysics 6:193--198, 1969.

7

J. A. Marshall. Self-organizing neural network architectures for computing visual depth from motion parallax. Proceedings of the International Joint Conference on Neural Networks, Washington DC, II:227--234, 1989.

8

J. A. Marshall. Self-organizing neural networks for perception of visual motion. Neural Networks 3:45--74, 1990.

9

J. A. Marshall. Challenges of vision theory: Self-organization of neural mechanisms for stable steering of object-grouping data in visual motion perception. In S.-S. Chen, editor, Stochastic and Neural Methods in Signal Processing, Image Processing, and Computer Vision, Proceedings of the SPIE 1569, San Diego, CA, 200--215, 1991.

10

J. A. Marshall. Unsupervised learning of contextual constraints in neural networks for simultaneous visual processing of multiple objects. In S.-S. Chen, editor, Neural and Stochastic Methods in Image and Signal Processing, Proceedings of the SPIE 1766, San Diego, CA, 84--93, 1992.

11

J. A. Marshall. Adaptive perceptual pattern recognition by self-organizing neural networks: Context, uncertainty, multiplicity,and scale. Neural Networks 8:335--362, 1995.

12

K. Nakayama and S. Shimojo. Experiencing and perceiving visual surfaces. Science, 257:1357--1363, 1992.

13

K. Nakayama, S. Shimojo, and G. H. Silverman. Stereoscopic depth: Its relation to image segmentation, grouping, and the recognition of occluded objects. Perception 18:55--68, 1989.

14

V. S. Ramachandran, V. Inada, and G. Kiama. Perception of illusory occlusion in apparent motion. Vision Research 26:1741--1749, 1986.

15

S. Shimojo, G. H. Silverman, and K. Nakayama. An occlusion-related mechanism of depth perception based on motion and interocular sequence. Nature 333:265--268, 1988.

16

S. Shimojo, G. H. Silverman, and K. Nakayama. Occlusion and the solution to the aperture problem for motion. Vision Research 29:619--626, 1989.

17

A. Yonas, L. G. Craton, and W. B. Thompson. Relative motion: Kinetic information for the order of depth at an edge. Perception & Psychophysics 41:53--59, 1987.