Adelson, E. H. & Movshon, J. A. (1982) Phenomenal coherence of moving visual patterns. Nature, 300, 523-525.

Anderson, B. L. & Shina, P. (1997) Reciprocal interactions between occlusion and motion computations. Proc. Natl. Acad. Sci. USA, 94, 3477-3480.

Anstis, S. (1990) Imperceptible Intersections: The Chopstick Illusion. In: Blake, A. and Troscianko, T. (Eds.) AI and the Eye. John Wiley & Sons. Chichester.

Bressan, P., Ganis, G. & Vallortigara, G. (1993) The role of depth stratification in the solution of the aperture problem. Perception, 22, 215-228.

Bruno, N. & Gerbino, W. (1991) Illusory figures based on local kinematics. Perception, 20, 259-274.

Castet, E. & Wuerger, S. (1997) Perception of moving lines: interactions between local perpendicular signals and 2D motion signals. Vision Research, 37, 705-720.

Castet, E., Charton, V. & Dufour, A. (1998) The extrinsic/intrisic classification of 2D motion signals with barber-pole stimuli. Vision Research, 39, 915-932.

Castet, E., Lorenceau, J., Shiffrar, M. & Bonnet, C. (1993) Perceived speed of moving lines depends on orientation, lenght, speed and luminance. Vision Research, 14, 1921-1936.

Cropper, S. J., Badcock, D. R. & Hayes, A. (1994) On the role of second-order signals in the perceived direction of motion of type II plaid patterns. Vision Research, 34, 2609-2612.

Derrington, A. & Suero, M. (1991) Motion of complex pattern is computed from the perceived motion of their components. Vision Research, 31, 139-149.

Duncker, K. (1929). Über induzierte Bewegung. Psychologische Forschung, 12, 180-259.

Ferrera, V. P. & Wilson, H. R. (1990) Perceived direction of moving two-dimensional patterns. Vision Research, 30, 273-287.

Gerbino, W. & Bruno, N. (1991) Indeteminazione ottica e visione. In: Neuroscienze e scienze dell'artificiale: dal neurone all'intelligenza. Scuola di Bioingegneria, Bressanone, 30 Settembre - 3 Ottobre 1991.

Gerbino, W. & Bruno, N. (1997) Paradoxical rest. Percetion, 26, 1549-1554.

Gibson J. J. (1950) The perception of the visual word. Boston, MA: Houghton Mifflin.

Gibson, J. J. (1979) The ecological approcach to visual perception. Boston, MA: Hougton Mifflin.

Hildreth, E. C. (1984) The measurement of visual motion. Cambridge, MA: MIT Press.

Hildreth, E. C. (1987) The analysis of visual motion: from computational theory to neural mechanisms. Annual Review of Neuroscience, 10, 477-533.

Julez, B. (1971) Foundations of cyclopean perception. Chicago: University of Chicago Press.

Kaplan, G. (1969) Kinetic disruption of optical texture: the perception of depth at an edge. Perception and Psychophysics, 6, 193-198.

Kellman, P. J. & Cohen, M. H. (1984) Kinetic subjective contours. Perception and Psychophysics, 35, 237-244.

Kellman, P. J. & Loukides, M. G. (1987) An object perception approach to static and kinetic subjective countors. In S. Petri, G. E. Meyer (Eds.), The Perception of illusory contours, 151-164. New York: Springer.

Kim, J. & Wilson, H. R. (1993) Dependence of plaid motion coherence on component grating directions. Vision Research,17, 2479-2489.

Kim, J., & Wilson, H. (1997) Motion integration over space: interaction of center and surround motion. Vision Research, 37, 991-1005.

Kirita, T. (1988) Determinants of barberpole illusion: An implication of constraints for motion integration. Tohoku Psychologica Folia, 47, 44-56.

Kooi, F. L. (1993) Local direction of edge motion causes and abolishes the barber pole illusion. Vision Research, 33, 2347-2351.

Ledgeway T. & Smith A. T. (1994) Evidence for separate motion-detecting mechanisms for first- and second-order motion in human vision. Vision Research, 34, 2727-2740.

Liden, (1997) A model of visual motion segmantation and integration. Investigative Ophthalmology & Visual Science, 39, S327.

Liden, L. & Mingolla, E. (1997) Monoculare occlusion cues alter the influence of terminator motion in the barberpole phenomenon. Vision Research, 38, 3889-3898.

Liden, L. & Pack, C. (1999) The role of terminators and occlusion cues in motion integration and segmentation: a neural network model. Vision Research, 39, 3301-3320.

Lorenceau, J. & Shiffrar, M. (1992) The influence of terminators on motion integration across space. Vision Research, 32, 263-273.

Lorenceau, J. (1998) Veridical perception of global motion from disparate component motions. Vision Research, 38, 1605-1610.

Mack, A. (1986) Perceptual aspects of motion in the frontal plane. In K. R. Boff, L. Kaufman, and J. P. Thomas (Eds), Handbook of Perception and Human Performance, 17: 1-38. New York: Wiley.

Marr, D. & Poggio, T. (1976) Cooperative computation of stereo disparity. Science, 194, 283-287.

Marr, D. & Poggio, T. (1979) A computational theory of human stereo vision. Proceedings of the Royal Society of London, B, 204, 301-328.

Marr, D. & Ullman, S. (1981) Directional selectivity and its use in early visual processing. Proceedings of the Royal Society of London, B, 211, 151-180.

McDermott, J., Weiss, Y. & Adelson, E.H. (1999) Amodal completion and depth segregation in motion integration. Investigative Ophthalmology & Visual Science, 2052, S390.

Meyer, G. E. & Dougherty, T. J. (1990) Ambiguous fluidity and rigidity and diamonds that oozep, 19, 491-496.

Metelli, F. (1940) Ricerche sperimentali sulla percezione del movimento. Rivista di psicologia, 36,319-360.

Metelli, F. (1965) Zur theorie der optischen bewegung swahrnehmung berig. Über den 24 kongress der deutshen geswschaft fur psychologie (Wien, 1964). Gottigen: Hogrefe.

Movshon, J. A., Adelson, E. H., Gizzi, M. S. & Newsome, W. T. (1985) The analysis of moving visual patterns. In C. Chagas, R. Gattass & C. Gross (Eds.), Pattern recognition mechanisms, 117-151. Vatican City: Vatican Press.

Mussap, A. J. & Grotenhuis, K. T. (1996) The influence of aperture surface an the barber-pole illusion. Perception, 25, 141-152.

Nakayama, K. & Silverman, G. H. (1988a) The aperture problem-I. Perception of nonrigidity and motion direction in translating sinusoidal lines. Vision Research, 28, 739-746.

Nakayama, K. & Silverman, G. H. (1988b) The aperture problem-II. Spatial integration of velocity information along contours. Vision Research, 28, 747-753.

Patterson, R., Bowd, C. & Donnelly, M. (1998) The cyclopean (stereoscopic) barberpole illusion. Vision Research, 38, 2119-2125.

Petter, G. (1956) Nuove ricerche sperimentali sulla totalizzazione percettiva. Rivista di psicologia, 50, 213-227.

Pritchard, R. M. (1961) Stabilized images on the retina. Scientific American, 204, June, 72-78.

Ramachandram, V. S. (1990) Visual perception in people and machines. In A. Blake & T. Troschanko (Eds) AI and the eye. Wiley, 21-77.

Ramachandran, V. S. (1990) Interaction between motion, depth, color and form: the utilitarian theory of perception. In C. Blackmore (Eds), Vision: Coding and Efficiency, 347-360. Cambrige: Cambrige University press.

Rubin, E. (1921) Visuell wahrgenommene figuren. Copenhagen: Gyldendalske.

Rubin, N. & Hochstein, S. (1993) Isolating the effect of one-dimensional motion signals on the perceived direction of moving two-dimensional objects. Vision Research, 33, 1385-1396.

Shiffrar, M. & Lorenceau, J. (1996) Increased motion linking across edges with decreased luminance, contrast, edge width and duration. Vision Research, 36, 2061-2067.

Shiffrar, M., Li, X. & Lorenceau, J. (1995) Motion integration across differing image features. Vision Research, 35, 2137-2146.

Shiffrar, M. & Pavel, (1991) Percepts of rigid motion within and across apertures. Journal of Experimental Psychology: Human Perception and Performance, 17, 749-761.

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

Stoner, G. R. & Albright, T. D. (1992) Neural correlates of perceptual motion coherence. Nature, 30, 412-414.

Stoner, G. R. & Albright, T. D. (1996) The interpretation of visual motion: evidence for surface segmantation mechanisms. Vision Research, 36, 1291-1310.

Stoner, G. R. & Albright, T. D. (1998) Luminance contrast affects motion coherency in plaid patterns by acting as a depth-from-occlusion cue. Vision Research, 38, 387-401.

Stoner, G. R., Albright, T. D. & Ramachandran, V. S. (1990) Trasparency and coherence in human motion perception. Nature, 344, 153-155.

Stumpf, P. (1911) Über die Abhangigkeit der visuellen Bewegungsrichtung und negativen Nachbildes von den Reizvorgangen auf der Netzhaut. Zeitschrift fur Psychologie, 59, 321-330. Translation Todorovic, D. (1996) A gem from the past: Pleikart Stumpf's (1911) anticipation of the aperture problem, Reichardt detectors, and perceived motion loss at equiluminance. Perception, 25, 1235-1242.

Trueswell, J. C. & Hayhoe, M. M. (1993) Apertures only constrain motion of figures not ground. Investigative Ophthalmology & Visual Science, S34, 1230.

Ullman, S. (1979) The interpretation of visual motion. Cambrige, MA: MIT Press.

Vallortigara, G. & Bressan, P. (1991) Occlusion and the perception of coherent motion.Vision Research, 31, 1967-1978.

Van den Berg, A. V. & Noest, A. J. (1993) Motion transparency and coherence in plaids: the role of end-stopped cells. Experimental Brain Research, 3, 519-533.

Von Gruanau, M., Dube, S. & Kwas, M. (1993) The effect of disparity on motion coherence. Spatial Vision, 7, 227-241.

Von Grunau, M. & Dube, S. (1993) Ambiguous plaids: switching between coherence and trasparency. Spatial Vision, 7, 199-211.

Wallach, H. & O'Connell, D. N. (1953) The kinetic depth effect. Journal of Experimental Psychology, 45, 205-217.

Wallach, H. (1935) Über visuell wahrgenommene Bewegungsrichtung. Psychologische Forscheung, 20, 325-380. Translation Wuerger, S., Shapley, R. & Rubin, N. (1996) "On the visually perceved direction of motion" by Hans Wallach: 60 years later. Perception, 25, 1317-1367.

Wandell, B. A. (1995) Motion and Depth. In B. A. Wandell (Eds.), Foundations of vision, 10: 341-385. Stanford: University of Stanford Press.

Welch, L. (1989) The perception of moving plaids reveals two processing stages. Nature, 337, 734-736.

Werkhoven, P., Sperling G. & Chubb, C. (1993) The dimensionality of texture-defined motion: a single channel theory. Vision Research, 33, 463-485.

Wilson, H. R. & Kim, J. (1994) Perceved motion in the vector sum direction. Vision Research, 34, 1835-1842.

Wilson, H. R., Ferrera, V. P. & Yo, C. (1992) Psychophysically motivated model for two-dimentional motion perception. Visual Neuroscience, 9, 79-97.

Wright, M. J. & Gurney, K. N. (1997) Coherence and motion transparency in rigid and nonrigid plaids. Perception, 26, 553-567.

Yo, C. & Wilson, H. R. (1992) Perceved direction of moving two-dimensional patterns depends on duration, contrast and eccentricity. Vision Resarch, 32, 135-147.