All Stories

  1. The Effect of Interocular Contrast Differences on the Appearance of Augmented Reality Imagery
  2. The Statistics of Eye Movements and Binocular Disparities during VR Gaming: Implications for Headset Design
  3. Fixational stability as a measure for the recovery of visual function in amblyopia
  4. Binocular combination of stimulus orientation
  5. Recovering stereo vision by squashing virtual bugs in a virtual reality environment
  6. Contour interaction in foveal vision: A response to Siderov, Waugh, and Bedell (2013)
  7. Rebalancing binocular vision in amblyopia
  8. Learning Optimizes Decision Templates in the Human Visual Cortex
  9. Testing vision: From laboratory psychophysical tests to clinical evaluation
  10. Linking assumptions in amblyopia
  11. Sensitivity to synchronicity of biological motion in normal and amblyopic vision
  12. A Weber-like law for perceptual learning
  13. Lazy Eye Shooter: Making a Game Therapy for Visual Recovery in Adult Amblyopia Usable
  14. Lazy eye shooter: A novel game therapy for visual recovery in adult amblyopia
  15. Prentice Award Lecture 2011
  16. Task relevancy and demand modulate double-training enabled transfer of perceptual learning
  17. Learning to Identify Near-Acuity Letters, either with or without Flankers, Results in Improved Letter Size and Spacing Limits in Adults with Amblyopia
  18. Reduced sampling efficiency causes degraded Vernier hyperacuity with normal aging: Vernier acuity in position noise
  19. Training the brain to overcome the effect of aging on the human eye
  20. Visual crowding
  21. Video-Game Play Induces Plasticity in the Visual System of Adults with Amblyopia
  22. 50th Anniversary Special Issue of Vision Research – Volume 2
  23. New Perspectives in the Treatment of Amblyopia
  24. 50th Anniversary special issue of vision research
  25. Visual crowding: a fundamental limit on conscious perception and object recognition
  26. Visual Acuity
  27. Visual deficits in anisometropia
  28. Vision Research reviews ‘vision research’
  29. Aging and Visual Counting
  30. Human efficiency for classifying natural versus random text
  31. Perceptual learning: Functions, mechanisms, and applications
  32. Decoupling location specificity from perceptual learning of orientation discrimination
  33. Visual Acuity
  34. Crowding in Peripheral Vision: Why Bigger Is Better
  35. Vision Research reviews ‘vision research’
  36. Learning to see in stereo
  37. Stochastic model for detection of signals in noise
  38. Fixing My Gaze: A Scientist’s Journey into Seeing in Three Dimensions
  39. Perceptual learning as a potential treatment for amblyopia: A mini-review
  40. Perceptual learning: Functions, mechanisms, and applications
  41. Complete Transfer of Perceptual Learning across Retinal Locations Enabled by Double Training
  42. Learning to identify near-threshold luminance-defined and contrast-defined letters in observers with amblyopia
  43. Foreword
  44. Stimulus Coding Rules for Perceptual Learning
  45. Integration across Time Determines Path Deviation Discrimination for Moving Objects
  46. Crowding between first- and second-order letters in amblyopia
  47. Crowding—An essential bottleneck for object recognition: A mini-review
  48. Attentional blinks as errors in temporal binding
  49. The response of the amblyopic visual system to noise
  50. Image segregation in strabismic amblyopia
  51. Collinearity improves alignment in amblyopia as well as in normal vision
  52. Sensitivity to biological motion drops by ∼1/2 log-unit with inversion, and is unaffected by amblyopia
  53. Feasibility Study on a Hyperacuity Device With Motion Uncertainty: Two-Point Stimuli
  54. Global contour processing in amblyopia
  55. Identification of contrast-defined letters benefits from perceptual learning in adults with amblyopia
  56. Meaningful interactions can enhance visual discrimination of human agents
  57. Receptive versus perceptive fields from the reverse-correlation viewpoint
  58. Learning to identify contrast-defined letters in peripheral vision
  59. Two sources of error in pop-out localization
  60. Visual Processing in Amblyopia: Human Studies
  61. The Great Brain Debate: Nature or Nurture?
  62. The essential role of stimulus temporal patterning in enabling perceptual learning
  63. Second-order spatial summation in amblyopia
  64. Spatial interactions reveal inhibitory cortical networks in human amblyopia
  65. What is the signal in noise?
  66. “Phase capture” in amblyopia: The influence function for sampled shape
  67. Learning letter identification in peripheral vision
  68. The perception of spatial order at a glance
  69. Perceptual learning in adults with amblyopia: A reevaluation of critical periods in human vision
  70. “Crowding” in normal and amblyopic vision assessed with Gaussian and Gabor C’s
  71. Location Coding by the Human Visual System: Multiple Topological Adaptations in a Case of Strabismic Amblyopia
  72. Combining cues in contour orientation discrimination
  73. Perception of mirror symmetry in amblyopic vision
  74. Perceptual learning improves efficiency by re-tuning the decision 'template' for position discrimination
  75. “Phase capture” in the perception of interpolated shape: cue combination and the influence function
  76. Spatial-frequency properties of letter identification in amblyopia
  77. Collinearity improves alignment
  78. Suppressive and facilitatory spatial interactions in amblyopic vision
  79. Is second-order spatial loss in amblyopia explained by the loss of first-order spatial input?
  80. Integration of local features into a global shape
  81. Spatial-frequency and contrast properties of crowding
  82. (AI-212)POST-GRADUATE OPPORTUNITIES AT THE UNIVERSITY OF HOUSTON, COLLEGE OF OPTOMETRY.
  83. A new illusion demonstrates long-range processing
  84. Detecting disorder in spatial vision
  85. Seeing circles: what limits shape perception?
  86. Perception of mirror symmetry reveals long-range interactions between orientation-selective cortical filters
  87. Wundt versus Galton—two Approaches to Gathering Psychophysical Measurements
  88. Vernier and contrast discrimination in central and peripheral vision
  89. Unmasking the mechanisms for Vernier acuity: evidence for a template model for Vernier acuity
  90. Dynamic random noise shrinks the twinkling aftereffect induced by artificial scotomas
  91. Amblyopic deficits in detecting a dotted line in noise
  92. Spatial scale of visual analysis for vernier acuity does not vary over time
  93. Progress and Paradigm Shifts in Spatial Vision over the 20 Years of Ecvp
  94. Sparse-sampling of gratings in the visual cortex of strabismic amblyopes
  95. The time course of psychophysical end-stopping
  96. Looking behind a pathological blind spot in human retina1Parts of this manuscript have been published in abstract form in, Tripathy, S. P., & Levi, D. M. (1995). Long-range dichoptic interaction in human vision around a pathological retinal scotoma...
  97. Development of an image/threshold database for designing and testing human vision models
  98. Position jitter and undersampling in pattern perception
  99. Orientation-based texture segmentation in strabismic amblyopia
  100. Alignment of separated patches: multiple location tags
  101. Editorial: long range interactions in vision
  102. The effect of contour closure on shape perception
  103. Rectification nonlinearity in cortical end-stopped perceptive fields
  104. Selective Attention to Specific Location Cues: The Peak and Center of a Patch are Equally Accessible as Location Cues
  105. Naso-Temporal Asymmetry of Spatial Interactions in Strabismic Amblyopia
  106. Spatial uncertainty and sampling efficiency in amblyopic position acuity
  107. Stimulus uncertainty affects velocity discrimination
  108. Spatial-frequency and orientation tuning in psychophysical end-stopping
  109. Integration of local orientation in strabismic amblyopia
  110. Call for papers Special Issue on Long Range Spatial Interactions in Vision
  111. Spatial facilitation predicted with end-stopped spatial filters
  112. Cortical components of the Westheimer function
  113. Moving vernier in amblyopic and peripheral vision: Greater tolerance to motion blur
  114. Development of Vernier Acuity in Childhood
  115. End stopping and length tuning in psychophysical spatial filters
  116. The influence of adaptation on perceived visual location
  117. Cortical end-stopped perceptive fields: Evidence from dichoptic and amblyopic studies
  118. Vernier acuity with plaid masks: the role of oriented filters in vernier acuity
  119. Vernier Acuity with Non-simultaneous Targets: The Cortical Magnification Factor Estimated by Psychophysics
  120. Localization of a Peripheral Patch: The Role of Blur and Spatial Frequency
  121. Ricco’s diameter for line detection increases with stimulus velocity
  122. Pattern perception at high velocities
  123. Vernier in Motion: What Accounts for the Threshold Elevation?
  124. Spatial Properties of Filters Underlying Vernier Acuity Revealed by Masking: Evidence for Collator Mechanisms * *Preliminary results were reported at ARVO, 1994; Mussap, A. J. & Levi, D.M. (1994). Vernier acuity with spatially limited grating masks...
  125. Limitations on Position Coding Imposed by Undersampling and Univariance
  126. Meridional Anisotropy in the Discrimination of Parallel and Perpendicular Lines—Effect of Body Tilt
  127. Angle judgment: Is the whole the sum of its parts?
  128. Two-dot alignment across the physiological blind spot
  129. Intrinsic uncertainty and integration efficiency in bisection acuity
  130. Position acuity with opposite-contrast polarity features: Evidence for a nonlinear collector mechanism for position acuity?
  131. DYNAMIC AFTEREFFECTS ARE MONOCULAR IN ORIGIN
  132. Spatial alignment across gaps: contributions of orientation and spatial scale
  133. Orientation anisotropy in vernier acuity
  134. Amodal Completion and Vernier Acuity: Evidence of ‘Top-But-Not-Very-Far-Down’ Processes?
  135. On the Filling in of the Visual Blind Spot: Some Rules of Thumb
  136. Perceptual learning in parafoveal vision
  137. Perceived length across the physiological blind spot
  138. Binocular processes in vernier acuity
  139. Perceptual learning in vernier acuity: What is learned?
  140. Amblyopic and peripheral vernier acuity: a test-pedestal approach
  141. Discrimination of position and contrast in amblyopic and peripheral vision
  142. Spatial scale shifts in amblyopia
  143. LENGTH PERCEPTIONS ACROSS THE BLIND SPOT
  144. Spatial integration in position acuity
  145. Pathophysiology of binocular vision and amblyopia
  146. Spatial scale shifts in peripheral vernier acuity
  147. Long-range dichoptic interactions in the human visual cortex in the region corresponding to the blind spot
  148. The effect of similarity and duration on spatial interaction in peripheral vision
  149. Spatial localization of motion-defined and luminance-defined contours
  150. The Perceived Strength of Motion-Defined Edges
  151. Orientation, masking, and vernier acuity for line targets
  152. Visibility, timing and vernier acuity
  153. Visibility, luminance and vernier acuity
  154. Visibility and vernier acuity for separated targets
  155. “Weber's law” for position: the role of spatial frequency and contrast
  156. The perceived strength of illusory contours
  157. The two-dimensional shape of spatial interaction zones in the parafovea
  158. Topography of the evoked potential to spatial localization cues
  159. Spatial localization without visual references
  160. The role of local contrast in the visual deficits of humans with naturally occurring amblyopia
  161. Binocular summation in vernier acuity
  162. Spatial-interval discrimination in two-dimensions
  163. THE PERCEPTION OF FORM
  164. Equivalent intrinsic blur in spatial vision
  165. Equivalent intrinsic blur in amblyopia
  166. The imprecision of stereopsis
  167. The role of separation and eccentricity in encoding position
  168. Spatial interval discrimination with blurred lines: Black and white are separate but not equal at multiple spatial scales
  169. Binocular beats: Psychophysical studies of binocular interaction in normal and stereoblind humans
  170. Both separation and eccentricity can limit precise position judgements: A reply to Morgan and Watt
  171. Peripheral positional acuity: Retinal and cortical constraints on 2-dot separation discrimination under photopic and scotopic conditions
  172. The Glenn A. Fry Award Lecture
  173. On Writing Grant Proposals
  174. Position sense of the peripheral retina: erratum
  175. Evidence for nonlinear binocular interactions in human visual cortex
  176. “Weber's law” for position: Unconfounding the role of separation and eccentricity
  177. Peripheral hyperacuity: isoeccentric bisection is better than radial bisection
  178. Position sense of the peripheral retina
  179. Peripheral hyperacuity: three-dot bisection scales to a single factor from 0 to 10 degrees
  180. Spatial-interval discrimination in the human fovea: what delimits the interval?
  181. Dichoptic hyperacuity: the precision of nonius alignment
  182. Depth attraction and repulsion of disparate foveal stimuli
  183. Positional uncertainty in peripheral and amblyopic vision
  184. Sampling in spatial vision
  185. Hyperacuity thresholds of 1 sec: theoretical predictions and empirical validation
  186. Stereo-deficients and stereoblinds cannot make utrocular discriminations
  187. Vernier acuity, crowding and cortical magnification
  188. Vernier acuity, crowding and amblyopia
  189. Selectivity of the evoked potential for vernier offset
  190. SECTION ON VISUAL SCIENCE
  191. SECTION ON VISUAL SCIENCE
  192. SECTION OF VISUAL SCIENCE
  193. Spatial and velocity tuning of processes underlying induced motion
  194. Detection and discrimination of the direction of motion in central and peripheral vision of normal and amblyopic observers
  195. Central and peripheral contrast sensitivity in amblyopia with varying field size
  196. Electrophysiological correlates of hyperacuity in the human visual cortex
  197. Symposium on Visual Development
  198. Psychophysical Studies of the Binocular Processes of Amblyopes
  199. Spatial localization in normal and amblyopic vision
  200. Symposium on Psychophysics and Clinical Aspects of Vision
  201. Psychophysical Mechanisms in Humans with Amblyopia
  202. Hyperacuity and amblyopia
  203. THE PATHOPHYSIOLOGY OF AMBLYOPIA: ELECTROPHYSIOLOGICAL STUDIES*
  204. DO VISUAL EVOKED POTENTIALS STUDIES REVEAL AMBLYOPIC ABNORMALITIES NOT READILY APPARENT IN PSYCHOPHYSICAL TESTS?
  205. The Persistence of Dichoptically Presented Grating Patterns
  206. Contrast increment thresholds of rhesus monkeys
  207. Normal cortical responses in ocularly hypopigmented cats
  208. Flicker masking in spatial vision
  209. THE PATHOPHYSIOLOGY OF AMBLYOPIA: ELECTROPHYSIOLOGICAL STUDIES*
  210. DO VISUAL EVOKED POTENTIALS STUDIES REVEAL AMBLYOPIC ABNORMALITIES NOT READILY APPARENT IN PSYCHOPHYSICAL TESTS?
  211. Suprathreshold binocular interactions for grating patterns
  212. A Sensory Mechanism for Amblyopia
  213. A Sensory Mechanism for Amblyopia
  214. Reaction time as a measure of suprathreshold grating detection
  215. Visual Evoked Responses in Strabismic and Anisometropic Amblyopia
  216. Increment threshold spectral sensitivity in anisometropic amblyopia
  217. National Health and Optometry
  218. The Refractive Status of Zuni Indian Children
  219. Occlusion Amblyopia
  220. PATTERNED AND UNPATTERNED VISUAL EVOKED RESPONSES IN STRABISMIC AND ANISOMETROPIC AMBLYOPIA
  221. HYSTERICAL AMBLYOPIA
  222. NATIONAL HEALTH AND OPTOMETRY-A SURVEY OF PUBLIC ATTITUDES*
  223. PUBLIC AWARENESS OF HEALTH CARE FACILITIES AND THE ROLE OF OPTOMETRY
  224. BRIGHTNESS CONTRAST IN AMBLYOPIA
  225. Levi-Strauss and the Unresolved Structuralist - Edmund Leach: Claude Levi-Strauss. Modern Masters, ed. Frank Kermode. (New York: The Viking Press, 1970. Pp. 142. Paper, $1.75.)
  226. TELEVISION RETINOSCOPY — A NEW TEACHING AND RESEARCH TOOL
  227. Oxcart to Airplane. Of the series California