| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0896-6273(00)80499-7 |
| P8608 | Fatcat ID | release_ogv6bptebzhwlh4swayrzfy5se |
| P698 | PubMed publication ID | 9655506 |
| P50 | author | Gerald Westheimer | Q5549674 |
| P2093 | author name string | Ito M | |
| Gilbert CD | |||
| P2860 | cites work | Orienting of attention | Q28282162 |
| Early perceptual learning | Q30530929 | ||
| Visual attention within and around the field of focal attention: a zoom lens model | Q34190612 | ||
| Contour integration by the human visual system: evidence for a local "association field". | Q34361427 | ||
| Perceptual learning of spatial localization: specificity for orientation, position, and context | Q34450078 | ||
| Expectancy and visual-spatial attention: effects on perceptual quality | Q34563423 | ||
| Attentional control of early perceptual learning | Q36372185 | ||
| Express attentional shifts | Q36777998 | ||
| Perceptual learning: learning to see. | Q40676219 | ||
| Visual attention: control, representation, and time course | Q41359493 | ||
| Improvement in line orientation discrimination is retinally local but dependent on cognitive set | Q43491154 | ||
| Spatial uncertainty in stereoacuity tests: implications for clinical vision test design | Q46012079 | ||
| Uncertainty effects in orientation discrimination of foveally seen lines in human observers | Q46013663 | ||
| An accurate and linear infrared oculometer | Q48747913 | ||
| How well do response changes of striate neurons signal differences in orientation: a study in the discriminating monkey. | Q48867437 | ||
| Learning pop-out detection: specificities to stimulus characteristics | Q48870362 | ||
| Three-dimensional object recognition. | Q52111645 | ||
| No transfer of perceptual learning between similar stimuli in the same retinal position. | Q52202479 | ||
| Perceptual learning in visual search: Fast, enduring, but non-specific | Q52207318 | ||
| Human perceptual learning in identifying the oblique orientation: retinotopy, orientation specificity and monocularity. | Q52209478 | ||
| Sustained and transient components of focal visual attention. | Q52248452 | ||
| The control and speed of shifts of attention. | Q52248453 | ||
| Enhancement of perceptual sensitivity as the result of selectively attending to spatial locations. | Q52297272 | ||
| The extent of processing of noise elements during selective encoding from visual displays | Q56095961 | ||
| Psychophysical studies of monkey Vision-III. Spatial luminance contrast sensitivity tests of macaque and human observers | Q57311653 | ||
| Parallel versus serial processing in rapid pattern discrimination | Q59095047 | ||
| Bright lines and edges facilitate the detection of small light targets | Q61771936 | ||
| Psychophysical studies of monkey vision. I. Macaque luminosity and color vision tests | Q67276257 | ||
| Detectability of a luminance increment: effect of spatial uncertainty | Q68860195 | ||
| Lateral interactions between spatial channels: suppression and facilitation revealed by lateral masking experiments | Q70748422 | ||
| Implantation of magnetic search coils for measurement of eye position: an improved method | Q71522489 | ||
| Improvement in visual sensitivity by changes in local context: Parallel studies in human observers and in V1 of alert monkeys | Q71783369 | ||
| The architecture of perceptual spatial interactions | Q72262789 | ||
| Spatial extent of attention to letters and words | Q72790243 | ||
| The effect of attentional spread on spatial resolution | Q73472040 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | attention | Q6501338 |
| P304 | page(s) | 1191-1197 | |
| P577 | publication date | 1998-06-01 | |
| P1433 | published in | Neuron | Q3338676 |
| P1476 | title | Attention and perceptual learning modulate contextual influences on visual perception. | |
| P478 | volume | 20 |
| Q35840916 | Acetylcholine dynamically controls spatial integration in marmoset primary visual cortex |
| Q33519514 | Adaptive gain modulation in V1 explains contextual modifications during bisection learning |
| Q26746954 | Anticlockwise or clockwise? A dynamic Perception-Action-Laterality model for directionality bias in visuospatial functioning |
| Q37170134 | Attention alters spatial integration in macaque V1 in an eccentricity-dependent manner. |
| Q37164051 | Attention and contrast differently affect contextual integration in an orientation discrimination task |
| Q35963860 | Attention and primary visual cortex |
| Q48240986 | Attention modulates contextual influences in the primary visual cortex of alert monkeys |
| Q81889781 | Attention modulates psychophysical and electrophysiological response to visual texture segmentation in humans |
| Q37554725 | Attention: oscillations and neuropharmacology |
| Q51644131 | Attentional effects on contrast detection in the presence of surround masks. |
| Q44861160 | Configuration-specific attentional modulation of flanker- -target lateral interactions |
| Q48535677 | Dissociable neural effects of long-term stimulus-reward pairing in macaque visual cortex |
| Q24810399 | Distributed neural plasticity for shape learning in the human visual cortex |
| Q52025250 | Effects of visual experience on the representation of objects in the prefrontal cortex. |
| Q57819885 | Endogenous spatial attention during perceptual learning facilitates location transfer |
| Q36415155 | Exogenous Attention Enables Perceptual Learning |
| Q36693898 | Feature-based attention in early vision for the modulation of figure-ground segregation |
| Q52168769 | Feature-based integration of orientation signals in visual search. |
| Q35008691 | Functional MRI reveals spatially specific attentional modulation in human primary visual cortex |
| Q48188619 | Generalized deficits in visual selective attention after V4 and TEO lesions in macaques |
| Q48490419 | Greater plasticity in lower-level than higher-level visual motion processing in a passive perceptual learning task |
| Q30374870 | How Invariant Feature Selectivity Is Achieved in Cortex |
| Q36243525 | How mechanisms of perceptual decision-making affect the psychometric function |
| Q92093026 | Improved fidelity of orientation perception: a learning effect dissociable from enhanced discriminability |
| Q44882822 | Improvement of visual acuity by spatial cueing: a comparative study in human and non-human primates |
| Q47338657 | Increasing the temporal g(r)ain: double-pulse resolution is affected by the size of the attention focus |
| Q33902521 | Interactions between attention, context and learning in primary visual cortex |
| Q74520432 | Lateral interactions between targets and flankers in low-level vision depend on attention to the flankers |
| Q48826248 | Learning increases stimulus salience in anterior inferior temporal cortex of the macaque |
| Q34109287 | Learning optimal eye movements to unusual faces |
| Q73505078 | Learning to find a shape |
| Q81245002 | Learning to suppress task-irrelevant visual stimuli with attention |
| Q33762792 | Linking structure and function: development of lateral spatial interactions in macaque monkeys |
| Q42329531 | Modeling the Time-Course of Responses for the Border Ownership Selectivity Based on the Integration of Feedforward Signals and Visual Cortical Interactions |
| Q37364085 | NtKRP, a kinesin-12 protein, regulates embryo/seed size and seed germination via involving in cell cycle progression at the G2/M transition |
| Q43973691 | Orthogonal adaptation and orientation discrimination |
| Q36607911 | Perceptual filling-in: More than the eye can see. |
| Q37519026 | Perceptual learning and adult cortical plasticity |
| Q52141364 | Perceptual learning of apparent motion mediated through ON- and OFF-pathways in human vision. |
| Q57471961 | Perceptual learning of fine contrast discrimination changes neuronal tuning and population coding in macaque V4 |
| Q35945014 | Perceptual learning via modification of cortical top-down signals |
| Q34099250 | Perceptual learning without perception |
| Q37453978 | Perceptual training yields rapid improvements in visually impaired youth. |
| Q48458575 | Receptive field plasticity of area 17 visual cortical neurons of adult rats |
| Q33593497 | Relationships between the threshold and slope of psychometric and neurometric functions during perceptual learning: implications for neuronal pooling |
| Q37452564 | Roles of attention in perceptual learning from perspectives of psychophysics and animal learning |
| Q52171155 | Tactile coactivation-induced changes in spatial discrimination performance. |
| Q46680244 | Task-dependent modulation of target-flanker lateral interactions in vision |
| Q49056394 | The attentional field has a Mexican hat distribution |
| Q34376838 | The neural basis of perceptual learning |
| Q37697621 | The role of alpha-rhythm states in perceptual learning: insights from experiments and computational models. |
| Q37315817 | The surprisingly high human efficiency at learning to recognize faces |
| Q27004514 | Top-down influences on visual processing |
| Q44461754 | Top-down modulation of lateral interactions in early vision: does attention affect integration of the whole or just perception of the parts? |
| Q48136794 | Top-down modulation of sensory cortex gates perceptual learning |
| Q48176281 | Topography of contextual modulations mediated by short-range interactions in primary visual cortex |
| Q48487935 | Visual attention: light enters the jungle. |
| Q73119755 | Visual responses in monkey areas V1 and V2 to three-dimensional surface configurations |
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