The neural basis of attentional control in visual search.
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Attention and prediction in human audition: a lesson from cognitive psychophysiologyA geometric method for computing ocular kinematics and classifying gaze events using monocular remote eye tracking in a robotic environment.Shifting Attention Between Visual Dimensions as a Source of Switch Costs.Sex differences in the Simon task help to interpret sex differences in selective attentionMultivariate EEG analyses support high-resolution tracking of feature-based attentional selectionSearching for flavor labels in food products: the influence of color-flavor congruence and association strength.Ginseng and Ginkgo Biloba Effects on Cognition as Modulated by Cardiovascular Reactivity: A Randomised TrialAttentional Resource Allocation in Visuotactile Processing Depends on the Task, But Optimal Visuotactile Integration Does Not Depend on Attentional Resources.A neural signature of rapid category-based target selection as a function of intra-item perceptual similarity, despite inter-item dissimilarityAuditory Stimulus Detection Partially Depends on Visuospatial Attentional Resources.Cognitive profiles in degenerative dementia without evidence of small vessel pathology and small vessel vascular dementia.New hypothesis on pontine-frontal eye field connectivity in Kleine-Levin syndrome.Neuroplus biofeedback improves attention, resilience, and injury prevention in elite soccer players.Top-Down Activation of Spatiotopic Sensory Codes in Perceptual and Working Memory Search.Multiple visual objects are sampled sequentially.ERP markers of target selection discriminate children with high vs. low working memory capacity.Binocular advantage for prehension movements performed in visually enriched environments requiring visual search.Rapid Attentional Selection of Non-native Stimuli despite Perceptual Narrowing.Perceptual Learning Induces Persistent Attentional Capture by Nonsalient Shapes.Changes of Attention during Value-Based Reversal Learning Are Tracked by N2pc and Feedback-Related Negativity.Visual search for object categories is predicted by the representational architecture of high-level visual cortex.The Control of Single-color and Multiple-color Visual Search by Attentional Templates in Working Memory and in Long-term Memory.Target objects defined by a conjunction of colour and shape can be selected independently and in parallel.The control of attentional target selection in a colour/colour conjunction task.Event-related Electroencephalographic Lateralizations Mark Individual Differences in Spatial and Nonspatial Visual Selection.Feature-based and spatial attentional selection in visual working memory.Activation of new attentional templates for real-world objects in visual search.The Speed of Serial Attention Shifts in Visual Search: Evidence from the N2pc Component.Rapid Parallel Attentional Selection Can Be Controlled by Shape and Alphanumerical Category.The Role of Color in Search Templates for Real-world Target Objects.Saliency-weighted graphs for efficient visual content description and their applications in real-time image retrieval systemsNeural Signatures of the Configural Superiority Effect and Fundamental Emergent Features in Human VisionDynamics of neural representations when searching for exemplars and categories of human and non-human faces
P2860
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P2860
The neural basis of attentional control in visual search.
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh
2014年學術文章
@zh-hant
name
The neural basis of attentional control in visual search.
@en
type
label
The neural basis of attentional control in visual search.
@en
prefLabel
The neural basis of attentional control in visual search.
@en
P1476
The neural basis of attentional control in visual search.
@en
P2093
Martin Eimer
P304
P356
10.1016/J.TICS.2014.05.005
P50
P577
2014-06-11T00:00:00Z