scholarly article | Q13442814 |
P50 | author | Hans Strasburger | Q47338729 |
P433 | issue | 11 | |
P921 | main subject | attention | Q6501338 |
P304 | page(s) | 1024-1037 | |
P577 | publication date | 2005-12-29 | |
P1433 | published in | Journal of Vision | Q6296043 |
P1476 | title | Unfocused spatial attention underlies the crowding effect in indirect form vision. | |
P478 | volume | 5 |
Q30495499 | (C)overt attention and visual speller design in an ERP-based brain-computer interface |
Q35988456 | A New Font, Specifically Designed for Peripheral Vision, Improves Peripheral Letter and Word Recognition, but Not Eye-Mediated Reading Performance |
Q37301063 | A comparison study of two P300 speller paradigms for brain-computer interface |
Q33615096 | A double dissociation of the acuity and crowding limits to letter identification, and the promise of improved visual screening |
Q30976905 | A neurophysiologically plausible population code model for feature integration explains visual crowding |
Q30658603 | Allocation of attention during pursuit of large objects is no different than during fixation |
Q35196629 | Are individual differences in reading speed related to extrafoveal visual acuity and crowding? |
Q51923335 | Attention as inference: selection is probabilistic; responses are all-or-none samples. |
Q48284111 | Attention-dependent early cortical suppression contributes to crowding. |
Q36727174 | Attentional costs in multiple-object tracking |
Q92544831 | Attentional guidance varies with display density |
Q82737837 | Attentional modulation of crowding |
Q45743907 | Attentional priming releases crowding |
Q92201710 | Challenges to pooling models of crowding: Implications for visual mechanisms |
Q53043121 | Changes in the functional visual field during search with and without eye movements. |
Q36241033 | Cholinergic enhancement reduces orientation-specific surround suppression but not visual crowding. |
Q36678432 | Constraints on Letter-in-String Identification in Peripheral Vision: Effects of Number of Flankers and Deployment of Attention |
Q51948560 | Contextual effects on decision templates for parafoveal orientation identification. |
Q57042596 | Critical resolution: A superior measure of crowding |
Q35218800 | Crowding alters the spatial distribution of attention modulation in human primary visual cortex |
Q39886437 | Crowding changes appearance |
Q36901524 | Crowding in the S-cone pathway |
Q34742781 | Crowding--an essential bottleneck for object recognition: a mini-review |
Q33653561 | Detection and identification of crowded mirror-image letters in normal peripheral vision |
Q44103238 | Developmental dyslexia and spatial relationship perception |
Q84273050 | Discrimination of natural scenes in central and peripheral vision |
Q42501756 | Dissociable effects of attention and crowding on orientation averaging |
Q90470261 | Dissociable effects of visual crowding on the perception of color and motion |
Q81462679 | Distinguishing between the precision of attentional localization and attentional resolution |
Q34356361 | Does the 'P300' speller depend on eye gaze? |
Q33853238 | Effect of pattern complexity on the visual span for Chinese and alphabet characters |
Q35007213 | Effects of crowding and attention on high-levels of motion processing and motion adaptation |
Q37082062 | Efficient integration across spatial frequencies for letter identification in foveal and peripheral vision |
Q35705260 | Electrophysiological evidence for failures of item individuation in crowded visual displays |
Q42413476 | Experience-dependent changes in the topography of visual crowding |
Q48163994 | Eye movement targets are released from visual crowding. |
Q91124073 | Feature contingencies when reading letter strings |
Q35242956 | Grating acuity and contrast tests for clinical trials of severe vision loss |
Q27309795 | Grouping and crowding affect target appearance over different spatial scales |
Q92969930 | How selective attention affects the detection of motion changes with peripheral vision in MOT |
Q41655372 | Image correlates of crowding in natural scenes. |
Q41996246 | Learning to identify crowded letters: does it improve reading speed? |
Q46311194 | Legibility of Chinese characters in peripheral vision and the top-down influences on crowding. |
Q51979445 | Nonspatial attributes of stimuli can influence spatial limitations of attentional control. |
Q35237945 | Nonspecific competition underlies transient attention |
Q104060830 | Number of flankers influences foveal crowding and contour interaction differently |
Q37264868 | Positional averaging explains crowding with letter-like stimuli. |
Q34593397 | Positive affect increases the breadth of attentional selection |
Q43068081 | Precision of position signals for letters |
Q85116173 | Probabilistic, positional averaging predicts object-level crowding effects with letter-like stimuli |
Q34556024 | Prominent effects and neural correlates of visual crowding in a neurodegenerative disease population |
Q21558431 | Reading into neuronal oscillations in the visual system: implications for developmental dyslexia |
Q34950148 | Reexamining the possible benefits of visual crowding: dissociating crowding from ensemble percepts |
Q42724180 | Saccadic selection and crowding in visual search: stronger lateral masking leads to shorter search times |
Q96136032 | Seven Myths on Crowding and Peripheral Vision |
Q44494705 | Spatial stimulus configuration and attentional selection: extrastriate and superior parietal interactions |
Q27335097 | Spatio-temporal properties of letter crowding |
Q28731873 | Substitution and pooling in crowding |
Q35924728 | The Bouma law of crowding, revised: critical spacing is equal across parts, not objects |
Q27316458 | The Role of Feature Tracking in the Furrow Illusion. |
Q58719503 | The extraction of natural scene gist in visual crowding |
Q37081876 | The nature of letter crowding as revealed by first- and second-order classification images |
Q90984731 | The optimal use of non-optimal letter information in foveal and parafoveal word recognition |
Q47858849 | Those pernicious items |
Q38472954 | Understanding the mental lexicon through neglect dyslexia: a study on compound noun reading. |
Q42157359 | Using a filtering task to measure the spatial extent of selective attention. |
Q33620079 | Variations in crowding, saccadic precision, and spatial localization reveal the shared topology of spatial vision |
Q91375825 | Visual attention modulates reading acquisition |
Q36077550 | Visual attention: the past 25 years |
Q40069977 | Visual crowding cannot be wholly explained by feature pooling. |
Q34762238 | Visual crowding: a fundamental limit on conscious perception and object recognition |
Search more.