All Stories

  1. Distinct decision processes for 3D and motion stimuli in both humans and monkeys revealed by computational modelling
  2. Sir Colin Brian Blakemore. 1 June 1944—27 June 2022
  3. The relationship between visual acuity loss and GABAergic inhibition in amblyopia
  4. Investigating the human binocular visual system using multi-modal magnetic resonance imaging
  5. The Oxford Encyclopedia of Sensory Systems
  6. Colin Blakemore (1944–2022)
  7. MRI stereoscope: a miniature stereoscope for human neuroimaging
  8. Intra-Areal Visual Topography in Primate Brains Mapped with Probabilistic Tractography of Diffusion-Weighted Imaging
  9. GABAergic inhibition in the human visual cortex relates to eye dominance
  10. Human primary visual cortex shows larger population receptive fields for binocular disparity-defined stimuli
  11. Correlated structure of neuronal firing in macaque visual cortex limits information for binocular depth discrimination
  12. Human primary visual cortex shows larger population receptive fields for binocular disparity-defined stimuli
  13. Intermediate level cortical areas and the multiple roles of area V4
  14. The ethical cost of doing nothing
  15. Recognition for Vision
  16. Normative cerebral cortical thickness for human visual areas
  17. Interneuronal correlations at longer time scales predict decision signals for bistable structure-from-motion perception
  18. Comparison of Neurochemical and BOLD Signal Contrast Response Functions in the Human Visual Cortex
  19. Normative cerebral cortical thickness for human visual areas
  20. Preserved extrastriate visual network in a monkey with substantial, naturally occurring damage to primary visual cortex
  21. Intact extrastriate visual network without primary visual cortex in a Rhesus macaque with naturally occurring Blindsight
  22. Fakes and Forgeries in the Brain Scanner
  23. Die neuronalen Signale, die Wahrnehmung verändern
  24. Geospatial statistics of high field functional MRI reveal topographical clustering for binocular stereo depth in early visual cortex
  25. Combined fMRI-MRS acquires simultaneous glutamate and BOLD-fMRI signals in the human brain
  26. The neural events that change perception
  27. Vision
  28. Stereoscopic Vision ☆
  29. Individual Differences in the Alignment of Structural and Functional Markers of the V5/MT Complex in Primates
  30. Neural architectures for stereo vision
  31. Defining the V5/MT neuronal pool for perceptual decisions in a visual stereo-motion task
  32. Vision in our three-dimensional world
  33. Changes in variance of neuronal signals may be perceptually relevant for stereo vision
  34. Spatial scale of correlated signals in 7T BOLD imaging
  35. Reward modulates the effect of visual cortical microstimulation on perceptual decisions
  36. Effects of Spatial and Feature Attention on Disparity-Rendered Structure-From-Motion Stimuli in the Human Visual Cortex
  37. Localization of MEG human brain responses to retinotopic visual stimuli with contrasting source reconstruction approaches
  38. Revealing Rembrandt
  39. Responses to interocular disparity correlation in the human cerebral cortex
  40. A Causal Role for V5/MT Neurons Coding Motion-Disparity Conjunctions in Resolving Perceptual Ambiguity
  41. Structural and Functional Changes across the Visual Cortex of a Patient with Visual Form Agnosia
  42. A micro-pool model for decision-related signals in visual cortical areas
  43. Human cortical responses to variations of the interocular correlation of binocular signals
  44. Response to Westlund's commentary: ‘Can conditioned reinforcers and variable-Ratio Schedules make food- and fluid control redundant?’
  45. Neurons in Dorsal Visual Area V5/MT Signal Relative Disparity
  46. Human Cortical Activity Evoked by the Assignment of Authenticity when Viewing Works of Art
  47. Refinement of the use of food and fluid control as motivational tools for macaques used in behavioural neuroscience research: Report of a Working Group of the NC3Rs
  48. Stereoscopic Vision in the Absence of the Lateral Occipital Cortex
  49. Neural Modulation by Binocular Disparity Greatest in Human Dorsal Visual Stream
  50. Similar temporal specificity of perceptual choice signals across a large pool of V5/MT neurons
  51. Systematic distortions of perceptual stability investigated using virtual reality
  52. Perception of size in a 'dynamic Ames room'
  53. A comparison of structurally and functionally defined human primary visual cortex
  54. High choice probabilities are associated with high interneuronal correlations in MT(V5) of the awake behaving macaque
  55. Simple cells can show non-linear binocular combination
  56. The range of disparities encoded in primate V1
  57. Psychophysical evidence against the use of orientation disparity in the perception of slant.
  58. Modelling the relative disparity selectivity of V2 neurons
  59. Stereoscopic Vision
  60. Perceptual switch rates with ambiguous structure-from-motion figures in bipolar disorder
  61. Topographical representation of binocular depth in the human visual cortex using fMRI
  62. Disparity Channels in Early Vision
  63. Binocular depth perception and the cerebral cortex
  64. Humans Ignore Motion and Stereo Cues in Favor of a Fictional Stable World
  65. Neuronal Computation of Disparity in V1 Limits Temporal Resolution for Detecting Disparity Modulation
  66. Independent anatomical and functional measures of the V1/V2 boundary in human visual cortex
  67. Comparing Perceptual Signals of Single V5/MT Neurons in Two Binocular Depth Tasks
  68. Receptive Field Size in V1 Neurons Limits Acuity for Perceiving Disparity Modulation
  69. Neuronal mechanisms for the perception of ambiguous stimuli
  70. A simple model accounts for the response of disparity-tuned V1 neurons to anticorrelated images
  71. Neuronal activity and its links with the perception of multi-stable figures
  72. Introduction
  73. A specialization for relative disparity in V2
  74. Implicit motion perception in schizotypy and schizophrenia: A Representational Momentum study
  75. Stereoacuity thresholds in the presence of a reference surface
  76. Chapter 14 Cortical mechanisms of binocular stereoscopic vision
  77. Probing the human stereoscopic system with reverse correlation
  78. SENSE AND THE SINGLE NEURON: Probing the Physiology of Perception
  79. Computing stereo channels from masking data
  80. Binocular correspondence in stereoscopic vision
  81. Independent neural mechanisms for bright and dark information in binocular stereopsis
  82. Objective evaluation of human and computational stereoscopic visual systems
  83. Constraints on human stereo dot matching
  84. Binocular mechanisms for detecting motion-in-depth
  85. An orientation-tuned component in the contrast masking of stereopsis
  86. Solid shape and the natural world
  87. Integration of depth modules: Stereopsis and texture
  88. Effects of different texture cues on curved surfaces viewed stereoscopically
  89. Efficiency of stereopsis in random-dot stereograms
  90. Misaligned viewpoints
  91. Vertical disparities and perception of three-dimensional shape
  92. A causal chain in motion
  93. Spatial properties of disparity pooling in human stereo vision
  94. Local circuit neurons of macaque monkey striate cortex: II. Neurons of laminae 5B and 6
  95. Two-dimensional spatial structure of receptive fields in monkey striate cortex
  96. Human contrast discrimination and the threshold of cortical neurons
  97. Spatial Properties of Neurons in the Monkey Striate Cortex
  98. Hyperacuity and the visual cortex
  99. Capabilities of monkey cortical cells in spatial-resolution tasks
  100. Contrast sensitivity and orientation selectivity in lamina IV of the striate cortex of Old World monkeys
  101. The Effects of Temporal Modulation on the Perceived Spatial Structure of Sine-Wave Gratings
  102. Shifts in perceived periodicity induced by temporal modulation and their influence on the spatial frequency tuning of two aftereffects