| Q51917456 | 'Squaring' is better at predicting plaid motion than the vector average or intersection of constraints. |
| Q51729714 | A model of plaid motion perception based on recursive Bayesian integration of the 1-D and 2-D motions of plaid features. |
| Q48566052 | A network model of motion processing in area MT of primates |
| Q52418100 | A psychophysically motivated model for two-dimensional motion perception |
| Q44670299 | An explanation of why component contrast affects perceived pattern motion |
| Q53472645 | An independent effect of spatial frequency on motion integration reveals orientation resolution. |
| Q89700478 | But Still It Moves: Static Image Statistics Underlie How We See Motion |
| Q49017270 | Can spatio-temporal energy models of motion predict feature motion? |
| Q73008846 | Color and luminance in the perception of 1- and 2-dimensional motion |
| Q52177777 | Computational models of coherent and transparent plaid motion. |
| Q48202284 | Computing feature motion without feature detectors: a model for terminator motion without end-stopped cells |
| Q59105190 | Contextual effects in speed perception may occur at an early stage of processing |
| Q38275528 | Contextual modulation and stimulus selectivity in extrastriate cortex |
| Q60213693 | Dependency of reaction times to motion onset on luminance and chromatic contrast |
| Q72072175 | Detection of temporal order of noise-like luminance functions |
| Q77496100 | Directions of motion after-effects induced by gratings and plaids |
| Q48351487 | Do component motions recombine into a moving plaid percept? |
| Q48891394 | Dynamics of distributed 1D and 2D motion representations for short-latency ocular following |
| Q42643486 | Effect of contrast on the active control of a moving line |
| Q48303514 | Effect of contrast on the perception of moving multiple Gabor patterns |
| Q52889785 | Evidence that luminant and equiluminant motion signals are integrated by directionally selective mechanisms. |
| Q74484927 | Failure of direction identification for briefly presented second-order motion stimuli: evidence for weak direction selectivity of the mechanisms encoding motion |
| Q77793065 | Figure ground segregation modulates perceived direction of ambiguous moving gratings and plaids |
| Q48236027 | Hitting moving targets: a dissociation between the use of the target's speed and direction of motion |
| Q59812102 | Is depth perception of stereo plaids predicted by intersection of constraints, vector average or second-order feature? |
| Q53609786 | Large shifts in perceived motion direction reveal multiple global motion solutions. |
| Q26822864 | Learning what to expect (in visual perception) |
| Q52543430 | Lines and dots: characteristics of the motion integration process. |
| Q72620068 | Magnitude of luminance modulation specifies amplitude of perceived movement |
| Q53766108 | Motion illusions as optimal percepts. |
| Q73444199 | Motion integration over space: interaction of the center and surround motion |
| Q48164819 | Motion streaks provide a spatial code for motion direction |
| Q83312311 | Motion transparency from opposing luminance modulated and contrast modulated gratings |
| Q36289057 | Neural computations governing spatiotemporal pooling of visual motion signals in humans |
| Q49034896 | Neural dynamics of motion integration and segmentation within and across apertures |
| Q52263270 | Nonlinear preprocessing in short-range motion. |
| Q37374811 | Perceived Speed of Compound Stimuli Is Moderated by Component Contrast, Not Overall Pattern Contrast |
| Q48922143 | Perceived direction of plaid motion is not predicted by component speeds |
| Q84088301 | Perceiving motion transparency in the absence of component direction differences |
| Q43666814 | Properties of the recombination of one-dimensional motion signals into a pattern motion signal |
| Q42360686 | Relating spatial and temporal orientation pooling to population decoding solutions in human vision |
| Q33594378 | Representation of concurrent stimuli by population activity in visual cortex |
| Q35220140 | Resolving Ambiguities in Orientation, Motion, and Depth Domains |
| Q51924412 | Subtractive and divisive adaptation in visual motion computations. |
| Q52229446 | Temporal factors in the discrimination of coherent motion |
| Q59153093 | The Role of Depth Stratification in the Solution of the Aperture Problem |
| Q73022582 | The dynamics of bi-stable alternation in ambiguous motion displays: a fresh look at plaids |
| Q34192475 | The nature of V1 neural responses to 2D moving patterns depends on receptive-field structure in the marmoset monkey |
| Q71984201 | The perceived speed of second-order motion and its dependence on stimulus contrast |
| Q40616794 | The role of the blobs in determining the perception of drifting plaids and their motion aftereffects |
| Q30552050 | The role of the harmonic vector average in motion integration |
| Q59812097 | Two-dimensional pattern motion analysis uses local features |