Emergent Filling In Induced by Motion Integration Reveals a High-Level Mechanism in Filling In

The visual system is intelligent—it is capable of recovering a coherent surface from an incomplete one, a feat known as perceptual completion or filling in. Traditionally, it has been assumed that surface features are interpolated in a way that resembles the fragmented parts. Using displays featuring four circular apertures, we showed in the study reported here that a distinct completed feature (horizontal motion) arises from local ones (oblique motions)—we term this process emergent filling in. Adaptation to emergent filling-in motion generated a dynamic motion aftereffect that was not due to spreading of local motion from the isolated apertures. The filling-in motion aftereffect occurred in both modal and amodal completions, and it was modulated by selective attention. These findings highlight the importance of high-level interpolation processes in filling in and are consistent with the idea that during emergent filling in, the more cognitive-symbolic processes in later areas (e.g., the middle temporal visual area and the lateral occipital complex) provide important feedback signals to guide more isomorphic processes in earlier areas (V1 and V2).

[1]  S Grossberg,et al.  3-D vision and figure-ground separation by visual cortex , 2010, Perception & psychophysics.

[2]  A. Lak,et al.  Attention during adaptation weakens negative afterimages of perceptually colour-spread surfaces. , 2008, Canadian journal of experimental psychology = Revue canadienne de psychologie experimentale.

[3]  P. Mazzoni,et al.  Cross-fixation transfer of motion aftereffects with expansion motion , 2006, Vision Research.

[4]  J. Lorenceau,et al.  Directional shifts in the barber pole illusion: Effects of spatial frequency, spatial adaptation, and lateral masking , 2006, Visual Neuroscience.

[5]  Alex R. Wade,et al.  No Functional Magnetic Resonance Imaging Evidence for Brightness and Color Filling-In In Early Human Visual Cortex , 2006, The Journal of Neuroscience.

[6]  H. Komatsu The neural mechanisms of perceptual filling-in , 2006, Nature Reviews Neuroscience.

[7]  Frank Tong,et al.  Filling-in of visual phantoms in the human brain , 2005, Nature Neuroscience.

[8]  M. Concetta Morrone,et al.  Neuronal Mechanisms for Illusory Brightness Perception in Humans , 2005, Neuron.

[9]  C. Hung,et al.  Cortical processing of a brightness illusion. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[10]  Takeo Watanabe,et al.  The primary visual cortex fills in color , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[11]  J. Maunsell,et al.  Attentional Modulation of Motion Integration of Individual Neurons in the Middle Temporal Visual Area , 2004, The Journal of Neuroscience.

[12]  John J. Foxe,et al.  Setting Boundaries: Brain Dynamics of Modal and Amodal Illusory Shape Completion in Humans , 2004, The Journal of Neuroscience.

[13]  John A. Greenwood,et al.  Tuning properties of radial phantom motion aftereffects , 2004, Vision Research.

[14]  Manish Singh Modal and Amodal Completion Generate Different Shapes , 2004, Psychological science.

[15]  Eric Halgren,et al.  Cortical activation to illusory shapes as measured with magnetoencephalography , 2003, NeuroImage.

[16]  N. Rubin,et al.  fMRI Activation in Response to Illusory Contours and Salient Regions in the Human Lateral Occipital Complex , 2003, Neuron.

[17]  Nava Rubin,et al.  Perceptual Completion across the Vertical Meridian and the Role of Early Visual Cortex , 2002, Neuron.

[18]  Y Kamitani,et al.  Afterimage of Perceptually Filled-in Surface , 2001, Science.

[19]  Steven Yantis,et al.  Masking unveils pre-amodal completion representation in visual search , 2001, Nature.

[20]  Christopher C. Pack,et al.  Temporal dynamics of a neural solution to the aperture problem in visual area MT of macaque brain , 2001, Nature.

[21]  T. S. Lee,et al.  Dynamics of subjective contour formation in the early visual cortex. , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[22]  M Dojat,et al.  Moving illusory contours activate primary visual cortex: an fMRI study. , 2000, Cerebral cortex.

[23]  A. Dale,et al.  The Representation of Illusory and Real Contours in Human Cortical Visual Areas Revealed by Functional Magnetic Resonance Imaging , 1999, The Journal of Neuroscience.

[24]  A. Metha,et al.  Enhanced motion aftereffect for complex motions , 1999, Vision Research.

[25]  Luiz Pessoa,et al.  Filling-in is for finding out , 1998 .

[26]  Frans A. J. Verstraten,et al.  The Motion Aftereffect:A Modern Perspective , 1998 .

[27]  Ronald A. Rensink,et al.  Early completion of occluded objects , 1998, Vision Research.

[28]  Zhaoping Li,et al.  A Neural Model of Contour Integration in the Primary Visual Cortex , 1998, Neural Computation.

[29]  Barry D. Vaughan,et al.  Object-Based Visual Selection: Evidence From Perceptual Completion , 1998 .

[30]  Jon Driver,et al.  Kanizsa subjective figures can act as occluding surfaces at parallel stages of visual search , 1998 .

[31]  R. Snowden,et al.  Phantom motion aftereffects – evidence of detectors for the analysis of optic flow , 1997, Current Biology.

[32]  Jon Driver,et al.  Spreading of Visual Attention to Modally Versus Amodally Completed Regions , 1997 .

[33]  J. Mattingley,et al.  Preattentive Filling-in of Visual Surfaces in Parietal Extinction , 1997, Science.

[34]  Stephen E. Palmer,et al.  Late influences on perceptual grouping: Amodal completion , 1996, Psychonomic bulletin & review.

[35]  C. Gilbert,et al.  Spatial integration and cortical dynamics. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[36]  Peter De Weerd,et al.  Responses of cells in monkey visual cortex during perceptual filling-in of an artificial scotoma , 1995, Nature.

[37]  Jon Driver,et al.  Parallel detection of Kanizsa subjective figures in the human visual system , 1994, Nature.

[38]  S. Nishida,et al.  Complete interocular transfer of motion aftereffect with flickering test , 1994, Vision Research.

[39]  J. Movshon,et al.  The analysis of visual motion: a comparison of neuronal and psychophysical performance , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[40]  Zijiang J. He,et al.  Surfaces versus features in visual search , 1992, Nature.

[41]  R Gattass,et al.  Dynamic surrounds of receptive fields in primate striate cortex: a physiological basis for perceptual completion? , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[42]  C. Gilbert Horizontal integration and cortical dynamics , 1992, Neuron.

[43]  P. Kellman,et al.  A theory of visual interpolation in object perception , 1991, Cognitive Psychology.

[44]  D Marr,et al.  Directional selectivity and its use in early visual processing , 1981, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[45]  N. Weisstein,et al.  A phantom-motion aftereffect. , 1977, Science.

[46]  S. Ullman,et al.  Filling-in the gaps: The shape of subjective contours and a model for their generation , 1976, Biological Cybernetics.

[47]  ANDREW SMITH,et al.  Tilt aftereffects with subjective contours , 1975, Nature.

[48]  P Tynan,et al.  Moving visual phantoms: a new contour completion effect. , 1975, Science.

[49]  H. Gerrits,et al.  Simultaneous contrast, filling-in process and information processing in man's visual system , 1970, Experimental Brain Research.

[50]  Z. Szallasi,et al.  Review Functional , 2008 .

[51]  D H Brainard,et al.  The Psychophysics Toolbox. , 1997, Spatial vision.

[52]  D G Pelli,et al.  The VideoToolbox software for visual psychophysics: transforming numbers into movies. , 1997, Spatial vision.

[53]  Daniel C. Dennett,et al.  Filling in versus finding out: A ubiquitous confusion in cognitive science , 1992 .

[54]  L. Reijnders,et al.  Higher Order Effects , 1992 .

[55]  G. Kanizsa,et al.  Organization in Vision: Essays on Gestalt Perception , 1979 .

[56]  R. Gregory,et al.  Cognitive Contours , 1972, Nature.

[57]  A. Michotte,et al.  Les compléments amodaux des structures perceptives , 1964 .