scholarly article | Q13442814 |
P2093 | author name string | John H R Maunsell | |
Joonyeol Lee | |||
P2860 | cites work | Selective attention gates visual processing in the extrastriate cortex | Q28235565 |
Linearity and normalization in simple cells of the macaque primary visual cortex | Q28251653 | ||
Normalization of cell responses in cat striate cortex | Q28252391 | ||
Neural mechanisms of selective visual attention | Q28292891 | ||
Figure-ground mechanisms provide structure for selective attention | Q30486915 | ||
A normalization model of attentional modulation of single unit responses | Q33413092 | ||
Computational models of cortical visual processing | Q33566247 | ||
The retinotopy of visual spatial attention. | Q34486818 | ||
Spatial attention modulates center-surround interactions in macaque visual area v4 | Q34969491 | ||
Neural correlates of attention and distractibility in the lateral intraparietal area | Q36628339 | ||
Task difficulty modulates the activity of specific neuronal populations in primary visual cortex | Q36909526 | ||
Attention alters spatial integration in macaque V1 in an eccentricity-dependent manner. | Q37170134 | ||
Attentional modulation of visual responses by flexible input gain | Q37225506 | ||
Spatial summation can explain the attentional modulation of neuronal responses to multiple stimuli in area V4. | Q37288759 | ||
The normalization model of attention | Q37382989 | ||
The role of attention in visual processing. | Q40872064 | ||
Spatial summation in the receptive fields of MT neurons. | Q41671954 | ||
A framework for describing the effects of attention on visual responses | Q41761062 | ||
Responses of MT and MST neurons to one and two moving objects in the receptive field | Q46175122 | ||
Increased Attention Enhances Both Behavioral and Neuronal Performance | Q48088038 | ||
Neural correlates of feature selective memory and pop-out in extrastriate area V4. | Q48144162 | ||
Feature-based attention influences motion processing gain in macaque visual cortex | Q48181443 | ||
Competitive mechanisms subserve attention in macaque areas V2 and V4. | Q48281025 | ||
Effects of attention on orientation-tuning functions of single neurons in macaque cortical area V4. | Q48319093 | ||
Multiple visual areas in the caudal superior temporal sulcus of the macaque | Q48333727 | ||
Dynamic shifts of visual receptive fields in cortical area MT by spatial attention | Q48447989 | ||
Effects of task difficulty and target likelihood in area V4 of macaque monkeys. | Q48467559 | ||
Effects of spatial attention on contrast response functions in macaque area V4. | Q48497860 | ||
Spatial attention effects in macaque area V4. | Q48723831 | ||
Attentional modulation of visual motion processing in cortical areas MT and MST. | Q48943991 | ||
Responses in area V4 depend on the spatial relationship between stimulus and attention | Q49072402 | ||
Attention to both space and feature modulates neuronal responses in macaque area V4. | Q52170180 | ||
Attention-dependent suppression of metabolic activity in the early stages of the macaque visual system. | Q52171060 | ||
Neural mechanisms of spatial selective attention in areas V1, V2, and V4 of macaque visual cortex. | Q52197431 | ||
Sustained and transient components of focal visual attention. | Q52248452 | ||
Push-Pull Mechanism of Selective Attention in Human Extrastriate Cortex | Q60508406 | ||
A grid system and a microsyringe for single cell recording | Q67232548 | ||
Natural signal statistics and sensory gain control | Q74286770 | ||
Feature-based attention increases the selectivity of population responses in primate visual cortex | Q80032723 | ||
Attentional modulation of motion integration of individual neurons in the middle temporal visual area | Q80542633 | ||
P433 | issue | 8 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | attention | Q6501338 |
P304 | page(s) | 3058-3066 | |
P577 | publication date | 2010-02-01 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | Attentional modulation of MT neurons with single or multiple stimuli in their receptive fields | |
P478 | volume | 30 |
Q41060042 | A mechanistic cortical microcircuit of attention for amplification, normalization and suppression |
Q36367479 | A neural mechanism underlying failure of optimal choice with multiple alternatives |
Q98614186 | Alpha oscillations do not implement gain control in early visual cortex but rather gating in parieto-occipital regions |
Q58694125 | Attention Configures Synchronization Within Local Neuronal Networks for Processing of the Behaviorally Relevant Stimulus |
Q55002141 | Attention Effects on Neural Population Representations for Shape and Location Are Stronger in the Ventral than Dorsal Stream. |
Q52606554 | Attention Selectively Gates Afferent Signal Transmission to Area V4. |
Q35468505 | Attention and normalization circuits in macaque V1. |
Q37253283 | Attention operates uniformly throughout the classical receptive field and the surround |
Q37688766 | Attentional enhancement of spatial resolution: linking behavioural and neurophysiological evidence |
Q38912694 | Blur Detection is Unaffected by Cognitive Load |
Q37399897 | Changing the spatial scope of attention alters patterns of neural gain in human cortex. |
Q34067294 | Correlations in V1 are reduced by stimulation outside the receptive field. |
Q55280751 | Covert shift of attention modulates the value encoding in the orbitofrontal cortex. |
Q35874737 | Decoding covert spatial attention using electrocorticographic (ECoG) signals in humans. |
Q57804794 | Distinct population codes for attention in the absence and presence of visual stimulation |
Q37217504 | Dynamic construction of a coherent attentional state in a prefrontal cell population |
Q48224441 | Effects of attention and distractor contrast on the responses of middle temporal area neurons to transient motion direction changes |
Q35316165 | Input-gain control produces feature-specific surround suppression |
Q47174243 | Muscarinic and Nicotinic Contribution to Contrast Sensitivity of Macaque Area V1 Neurons |
Q38834932 | Neural correlates of visual-spatial attention in electrocorticographic signals in humans |
Q94529071 | Neuronal Effects of Spatial and Feature Attention Differ Due to Normalization |
Q42053284 | Reward action in the initiation of smooth pursuit eye movements |
Q43833206 | Spatial attention enhances the selective integration of activity from area MT. |
Q48198934 | Spatially tuned normalization explains attention modulation variance within neurons |
Q92451194 | Strategic deployment of feature-based attentional gain in primate visual cortex |
Q34580826 | Strength of gamma rhythm depends on normalization. |
Q34108451 | The effect of attention on neuronal responses to high and low contrast stimuli |
Q41571010 | The fine structure of shape tuning in area V4. |
Q37784334 | The neural basis of visual attention |
Q35190333 | The role of the lateral intraparietal area in orienting attention and its implications for visual search |
Q48097985 | Toward high performance, weakly invasive brain computer interfaces using selective visual attention |
Q35799250 | Tuned normalization explains the size of attention modulations. |
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