Cortical mechanisms of binocular stereoscopic vision.

[1]  Charles Wheatstone,et al.  Contributions to the Physiology of Vision. , 1837 .

[2]  C. Wheatstone XVIII. Contributions to the physiology of vision. —Part the first. On some remarkable, and hitherto unobserved, phenomena of binocular vision , 1962, Philosophical Transactions of the Royal Society of London.

[3]  Charles Wheatstone,et al.  I. The Bakerian Lecture.— Contributions to the physiology of vision.— Part the second. On some remarkable, and hitherto unobserved, phenomena of binocular vision (continued) , 1852, Philosophical Transactions of the Royal Society of London.

[4]  G. Westheimer,et al.  Disjunctive eye movements , 1961, The Journal of physiology.

[5]  Charles Wheatstone On some remarkable and hitherto unobserved phenomena of binocular vision. , 1962 .

[6]  B JULESZ,et al.  Binocular Depth Perception without Familiarity Cues , 1964, Science.

[7]  D. Hubel,et al.  Stereoscopic Vision in Macaque Monkey: Cells sensitive to Binocular Depth in Area 18 of the Macaque Monkey Cortex , 1970, Nature.

[8]  B. Julesz Foundations of Cyclopean Perception , 1971 .

[9]  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.

[10]  J. E. W. Mayhew,et al.  A computational model of binocular depth perception , 1982, Nature.

[11]  John H. R. Maunsell,et al.  Functional properties of neurons in middle temporal visual area of the macaque monkey. II. Binocular interactions and sensitivity to binocular disparity. , 1983, Journal of neurophysiology.

[12]  E. Adelson,et al.  The analysis of moving visual patterns , 1985 .

[13]  E H Adelson,et al.  Spatiotemporal energy models for the perception of motion. , 1985, Journal of the Optical Society of America. A, Optics and image science.

[14]  H. Collewijn,et al.  Motion perception during dichoptic viewing of moving random-dot stereograms , 1985, Vision Research.

[15]  DH Hubel,et al.  Segregation of form, color, and stereopsis in primate area 18 , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[16]  G. Poggio,et al.  Stereoscopic mechanisms in monkey visual cortex: binocular correlation and disparity selectivity , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[17]  William T. Newsome,et al.  Cortical microstimulation influences perceptual judgements of motion direction , 1990, Nature.

[18]  I. Ohzawa,et al.  Stereoscopic depth discrimination in the visual cortex: neurons ideally suited as disparity detectors. , 1990, Science.

[19]  T. Collett,et al.  Does vertical disparity scale the perception of stereoscopic depth? , 1991, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[20]  B. G. Cumming,et al.  Vertical disparities and perception of three-dimensional shape , 1991, Nature.

[21]  E. Johnston Systematic distortions of shape from stereopsis , 1991, Vision Research.

[22]  E. Peterhans,et al.  Functional Organization of Area V2 in the Alert Macaque , 1993, The European journal of neuroscience.

[23]  M F Bradshaw,et al.  Vertical disparities, differential perspective and binocular stereopsis , 1993, Nature.

[24]  R. Shapley,et al.  “On the Visually Perceived Direction of Motion” by Hans Wallach: 60 Years Later , 1996 .

[25]  B. G. Cumming,et al.  Responses of primary visual cortical neurons to binocular disparity without depth perception , 1997, Nature.

[26]  M. Morgan,et al.  The aperture problem in stereopsis , 1997, Vision Research.

[27]  H. Wallach On the visually perceived direction of motion ' ' by Hans Wallach : 60 years later , 1997 .

[28]  I. Ohzawa,et al.  The neural coding of stereoscopic depth. , 1997, Neuroreport.

[29]  F. A. Miles,et al.  Vergence eye movements in response to binocular disparity without depth perception , 1997, Nature.

[30]  Izumi Ohzawa,et al.  Mechanisms of stereoscopic vision: the disparity energy model , 1998, Current Opinion in Neurobiology.

[31]  G. DeAngelis,et al.  Cortical area MT and the perception of stereoscopic depth , 1998, Nature.

[32]  A. Parker,et al.  Binocular Neurons in V1 of Awake Monkeys Are Selective for Absolute, Not Relative, Disparity , 1999, The Journal of Neuroscience.

[33]  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.

[34]  James A. Crowell,et al.  Horizontal and vertical disparity, eye position, and stereoscopic slant perception , 1999, Vision Research.

[35]  M. Banks,et al.  Estimator Reliability and Distance Scaling in Stereoscopic Slant Perception , 1999, Perception.

[36]  G. DeAngelis,et al.  Organization of Disparity-Selective Neurons in Macaque Area MT , 1999, The Journal of Neuroscience.

[37]  Andrew J. Parker,et al.  Local Disparity Not Perceived Depth Is Signaled by Binocular Neurons in Cortical Area V1 of the Macaque , 2000, The Journal of Neuroscience.

[38]  Hong Zhou,et al.  Representation of stereoscopic edges in monkey visual cortex , 2000, Vision Research.

[39]  A. Parker,et al.  The Precision of Single Neuron Responses in Cortical Area V1 during Stereoscopic Depth Judgments , 2000, The Journal of Neuroscience.

[40]  J. Bakin,et al.  Visual Responses in Monkey Areas V1 and V2 to Three-Dimensional Surface Configurations , 2000, The Journal of Neuroscience.

[41]  David J. Fleet,et al.  Human cortical activity correlates with stereoscopic depth perception. , 2001, Journal of neurophysiology.

[42]  G C DeAngelis,et al.  The physiology of stereopsis. , 2001, Annual review of neuroscience.