| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.CUB.2004.04.028 |
| P698 | PubMed publication ID | 15120065 |
| P2093 | author name string | Julio C Martinez-Trujillo | |
| Stefan Treue | |||
| P433 | issue | 9 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | primate | Q7380 |
| P304 | page(s) | 744-751 | |
| P577 | publication date | 2004-05-01 | |
| P1433 | published in | Current Biology | Q1144851 |
| P1476 | title | Feature-based attention increases the selectivity of population responses in primate visual cortex | |
| P478 | volume | 14 |
| Q35927246 | A Feedback Model of Attention Explains the Diverse Effects of Attention on Neural Firing Rates and Receptive Field Structure |
| Q55384596 | A Neurodynamic Model of Feature-Based Spatial Selection. |
| Q40079507 | A Pressure Injection System for Investigating the Neuropharmacology of Information Processing in Awake Behaving Macaque Monkey Cortex |
| Q30680418 | A Source for Feature-Based Attention in the Prefrontal Cortex |
| Q41761062 | A framework for describing the effects of attention on visual responses |
| Q30440058 | A hierarchy of attentional priority signals in human frontoparietal cortex |
| Q41060042 | A mechanistic cortical microcircuit of attention for amplification, normalization and suppression |
| Q33413092 | A normalization model of attentional modulation of single unit responses |
| Q44275534 | A single functional model of drivers and modulators in cortex. |
| Q35185947 | A unifying mechanistic model of selective attention in spiking neurons |
| Q30491574 | Adaptive allocation of attentional gain |
| Q36728762 | Adaptive deployment of spatial and feature-based attention before saccades |
| Q36224698 | An Extended Normalization Model of Attention Accounts for Feature-Based Attentional Enhancement of Both Response and Coherence Gain |
| Q53428260 | An Integrative Framework for Sensory, Motor, and Cognitive Functions of the Posterior Parietal Cortex. |
| Q51908426 | An integrated microcircuit model of attentional processing in the neocortex. |
| Q35841396 | Anatomical constraints on attention: hemifield independence is a signature of multifocal spatial selection |
| Q34012497 | Anticipatory attentional suppression of visual features indexed by oscillatory alpha-band power increases: a high-density electrical mapping study |
| Q41883035 | Apparent contrast differs across the vertical meridian: visual and attentional factors |
| Q37010044 | Attending multiple items decreases the selectivity of population responses in human primary visual cortex. |
| Q36017273 | Attention Determines Contextual Enhancement versus Suppression in Human Primary Visual Cortex |
| Q90436976 | Attention Enhances the Efficacy of Communication in V1 Local Circuits |
| Q84257988 | Attention alters feature space in motion processing |
| Q37482080 | Attention and biased competition in multi-voxel object representations |
| Q42560386 | Attention and conscious perception in the hypothesis testing brain |
| Q35468505 | Attention and normalization circuits in macaque V1. |
| Q48312377 | Attention differentially modulates similar neuronal responses evoked by varying contrast and direction stimuli in area MT. |
| Q41969305 | Attention directed by expectations enhances receptive fields in cortical area MT. |
| Q39695140 | Attention enhances stimulus representations in macaque visual cortex without affecting their signal-to-noise level. |
| Q35098862 | Attention improves encoding of task-relevant features in the human visual cortex |
| Q48486887 | Attention improves object representation in visual cortical field potentials. |
| Q37617369 | Attention improves transfer of motion information between V1 and MT. |
| Q42201328 | Attention in a bayesian framework |
| Q42576690 | Attention narrows position tuning of population responses in V1. |
| Q34275489 | Attention protects the fidelity of visual memory: behavioral and electrophysiological evidence |
| Q34073560 | Attention reduces stimulus-driven gamma frequency oscillations and spike field coherence in V1 |
| Q30490146 | Attention reshapes center-surround receptive field structure in macaque cortical area MT. |
| Q36937577 | Attention selectively modifies the representation of individual faces in the human brain |
| Q47923428 | Attention to Color Sharpens Neural Population Tuning via Feedback Processing in the Human Visual Cortex Hierarchy. |
| Q61799620 | Attention to colors induces surround suppression at category boundaries |
| Q34168288 | Attention to stimulus features shifts spectral tuning of V4 neurons during natural vision |
| Q42616261 | Attention to the Color of a Moving Stimulus Modulates Motion-Signal Processing in Macaque Area MT: Evidence for a Unified Attentional System |
| Q44261550 | Attention-related changes in correlated neuronal activity arise from normalization mechanisms. |
| Q88386881 | Attentional Modulation of Neuronal Activity Depends on Neuronal Feature Selectivity |
| Q73680944 | Attentional Modulation of Vision Versus Proprioception During Action |
| Q46005721 | Attentional Selection of Feature Conjunctions Is Accomplished by Parallel and Independent Selection of Single Features. |
| Q83230329 | Attentional amplification of neural codes for number independent of other quantities along the dorsal visual stream |
| Q42066534 | Attentional control of sensory tuning in human visual perception |
| Q37688766 | Attentional enhancement of spatial resolution: linking behavioural and neurophysiological evidence |
| Q35194654 | Attentional modulation and selection--an integrated approach |
| Q39927158 | Attentional modulation of MT neurons with single or multiple stimuli in their receptive fields |
| Q35799285 | Attentional modulation of fMRI responses in human V1 is consistent with distinct spatial maps for chromatically defined orientation and contrast. |
| Q37225506 | Attentional modulation of visual responses by flexible input gain |
| Q33732631 | Attentional spreading to task-irrelevant object features: experimental support and a 3-step model of attention for object-based selection and feature-based processing modulation |
| Q48892104 | Automatic spread of attentional response modulation along Gestalt criteria in primary visual cortex |
| Q36852848 | Baseline shifts do not predict attentional modulation of target processing during feature-based visual attention |
| Q30473985 | Basing perceptual decisions on the most informative sensory neurons |
| Q34068658 | Behavioral performance follows the time course of neural facilitation and suppression during cued shifts of feature-selective attention |
| Q30440284 | Both attention and prediction are necessary for adaptive neuronal tuning in sensory processing. |
| Q46161647 | Bottom-up biases in feature-selective attention |
| Q34444665 | Bottom-up dependent gating of frontal signals in early visual cortex |
| Q38730007 | Canonical computations of cerebral cortex |
| Q34627368 | Category-based inhibition of focused attention across consecutive trials |
| Q35244988 | Choice-correlated activity fluctuations underlie learning of neuronal category representation |
| Q92289042 | Cholinergic Modulation Promotes Attentional Modulation in Primary Visual Cortex- A Modeling Study |
| Q30494103 | Chronic cellular imaging of mouse visual cortex during operant behavior and passive viewing |
| Q35859334 | Color improves speed of processing but not perception in a motion illusion |
| Q37702527 | Color priming in pop-out search depends on the relative color of the target. |
| Q48663367 | Combining spatial and feature-based attention within the receptive field of MT neurons |
| Q91361950 | Competing rhythmic neural representations of orientations during concurrent attention to multiple orientation features |
| Q26858783 | Computational advances towards linking BOLD and behavior |
| Q90010171 | Concurrent evaluation of independently cued features during perceptual decisions and saccadic targeting in visual search |
| Q85120857 | Constant spread of feature-based attention across the visual field |
| Q30486378 | Context-dependent changes in functional circuitry in visual area MT. |
| Q48282949 | Contribution of cholinergic and GABAergic mechanisms to direction tuning, discriminability, response reliability, and neuronal rate correlations in macaque middle temporal area. |
| Q34951151 | Control of prestimulus activity related to improved sensory coding within a discrimination task |
| Q46080377 | Correlation between speed perception and neural activity in the middle temporal visual area. |
| Q34433008 | Cortical connective field estimates from resting state fMRI activity. |
| Q37914677 | Cortical state and attention |
| Q30495917 | Decision-related activity in sensory neurons reflects more than a neuron's causal effect |
| Q35127252 | Decoding seen and attended motion directions from activity in the human visual cortex |
| Q35827226 | Deconstructing Interocular Suppression: Attention and Divisive Normalization |
| Q37086548 | Direction selectivity of neurons in the macaque lateral intraparietal area |
| Q35921007 | Dissociable effects of salience on attention and goal-directed action |
| Q63930264 | Dissociable laminar profiles of concurrent bottom-up and top-down modulation in the human visual cortex |
| Q37389802 | Dissociation of neural mechanisms underlying orientation processing in humans. |
| Q45123612 | Distinct causal mechanisms of attentional guidance by working memory and repetition priming in early visual cortex |
| Q33924381 | Distortions in recall from visual memory: two classes of attractors at work |
| Q48378122 | Distracter suppression dominates attentional modulation of responses to multiple stimuli inside the receptive fields of middle temporal neurons. |
| Q34222084 | Dynamic integration of task-relevant visual features in posterior parietal cortex. |
| Q48447989 | Dynamic shifts of visual receptive fields in cortical area MT by spatial attention |
| Q83335616 | Effects of feature-based attention on the motion aftereffect at remote locations |
| Q33769003 | Effects of spatial and feature attention on disparity-rendered structure-from-motion stimuli in the human visual cortex |
| Q36127384 | Effects of spatial attention on motion discrimination are greater in the left than right visual field |
| Q42771372 | Effects of stimulus direction on the correlation between behavior and single units in area MT during a motion detection task. |
| Q47162219 | Electrical stimulation of macaque lateral prefrontal cortex modulates oculomotor behavior indicative of a disruption of top-down attention |
| Q42371211 | Error-based analysis of optimal tuning functions explains phenomena observed in sensory neurons |
| Q41909287 | Evaluation of local field potential signals in decoding of visual attention |
| Q52006805 | Exogenous attention and color perception: performance and appearance of saturation and hue. |
| Q48818990 | Expansion of MT neurons excitatory receptive fields during covert attentive tracking. |
| Q42047814 | Exploring the mechanisms underlying surface-based stimulus selection |
| Q38031078 | Exploring the relationship between perceptual learning and top-down attentional control |
| Q35146530 | Featural and temporal attention selectively enhance task-appropriate representations in human primary visual cortex |
| Q35138393 | Feature attention for binocular disparity in primate area MT depends on tuning strength |
| Q42553240 | Feature binding in the feedback layers of area V2. |
| Q36248398 | Feature expectation heightens visual sensitivity during fine orientation discrimination |
| Q37147607 | Feature-Selective Attentional Modulations in Human Frontoparietal Cortex |
| Q50540857 | Feature-based and spatial attentional selection in visual working memory. |
| Q48903274 | Feature-based attention and the suppression of non-relevant object features |
| Q88679956 | Feature-based attention elicited by precueing in an orientation discrimination task |
| Q36188169 | Feature-based attention enhances performance by increasing response gain |
| Q36693898 | Feature-based attention in early vision for the modulation of figure-ground segregation |
| Q41450294 | Feature-based attention in the frontal eye field and area V4 during visual search |
| Q79862070 | Feature-based attention influences contextual interactions during motion repulsion |
| Q35148144 | Feature-based attention involuntarily and simultaneously improves visual performance across locations |
| Q83390907 | Feature-based attention modulates direction-selective hemodynamic activity within human MT |
| Q30492204 | Feature-based attention modulates orientation-selective responses in human visual cortex |
| Q35933341 | Feature-based attention modulates surround suppression |
| Q50147527 | Feature-based attention potentiates recovery of fine direction discrimination in cortically blind patients |
| Q83193307 | Feature-based attention spreads preferentially in an object-specific manner |
| Q51902901 | Feature-based attention to unconscious shapes and colors |
| Q90249895 | Feature-based attention: effects and control |
| Q51783978 | Feature-based attentional interference revealed in perceptual errors and lags. |
| Q28754998 | Free-energy and the brain |
| Q48192459 | Frequency-dependent attentional modulation of local field potential signals in macaque area MT. |
| Q38602205 | From Behavior to Neural Dynamics: An Integrated Theory of Attention. |
| Q37309550 | Global facilitation of attended features is obligatory and restricts divided attention |
| Q33575237 | Global selection of saccadic target features by neurons in area v4. |
| Q61714933 | Guidance of Attention by Feature Relationships: The End of the Road for Feature Map Theories? |
| Q44740770 | Hierarchical differences in population coding within auditory cortex. |
| Q30492756 | Hierarchical models in the brain |
| Q37628217 | High perceptual load leads to both reduced gain and broader orientation tuning |
| Q61268724 | How alcohol intake affects visual temporal processing |
| Q37147476 | How attention extracts objects from noise |
| Q57054605 | How biological attention mechanisms improve task performance in a large-scale visual system model |
| Q90024510 | How exogenous spatial attention affects visual representation |
| Q41472046 | How spatial and feature-based attention affect the gain and tuning of population responses |
| Q39061527 | Idiosyncratic Patterns of Representational Similarity in Prefrontal Cortex Predict Attentional Performance |
| Q35974252 | Imaging prior information in the brain |
| Q37035541 | Inattention blindness to motion in middle temporal area |
| Q33561907 | Independent effects of motivation and spatial attention in the human visual cortex |
| Q37094127 | Individual differences in attention strategies during detection, fine discrimination, and coarse discrimination |
| Q33671693 | Induced α rhythms track the content and quality of visual working memory representations with high temporal precision |
| Q37624103 | Inhibition drives early feature-based attention. |
| Q35244465 | Integration trumps selection in object recognition |
| Q41041601 | Interaction between Spatial and Feature Attention in Posterior Parietal Cortex |
| Q30663182 | Is improved contrast sensitivity a natural consequence of visual training? |
| Q30544029 | Language can boost otherwise unseen objects into visual awareness. |
| Q35100820 | Layer-Dependent Attentional Processing by Top-down Signals in a Visual Cortical Microcircuit Model |
| Q36524602 | Limited featured-based attention to multiple features. |
| Q50522880 | Limits in feature-based attention to multiple colors. |
| Q30829350 | Local expectation violations result in global activity gain in primary visual cortex |
| Q92480537 | Mechanisms underlying gain modulation in the cortex |
| Q92307135 | Modulation of human visuospatial attention analysis by transcranial direct current stimulation (tDCS) in the line bisection performance |
| Q34616132 | Multiple components of surround modulation in primary visual cortex: multiple neural circuits with multiple functions? |
| Q57113193 | Neural Activity Predicts Reaction in Primates Long Before a Behavioral Response |
| Q90744690 | Neural Circuits That Mediate Selective Attention: A Comparative Perspective |
| Q38964596 | Neural mechanisms of information storage in visual short-term memory |
| Q38873947 | Neural mechanisms of selective attention in the somatosensory system |
| Q90305701 | Neural mechanisms of sensorimotor transformation and action selection |
| Q37976678 | Neuro-cognitive mechanisms of conscious and unconscious visual perception: From a plethora of phenomena to general principles |
| Q53449644 | Neuromodulation of Attention. |
| Q94529071 | Neuronal Effects of Spatial and Feature Attention Differ Due to Normalization |
| Q48398315 | Neuronal responses to object images in the macaque inferotemporal cortex at different stimulus discrimination levels. |
| Q39023468 | Neurons in Primate Visual Cortex Alternate between Responses to Multiple Stimuli in Their Receptive Field |
| Q24630528 | Neurophysiological and Computational Principles of Cortical Rhythms in Cognition |
| Q91890934 | Normalization governs attentional modulation within human visual cortex |
| Q36654292 | Obligatory encoding of task-irrelevant features depletes working memory resources |
| Q37678891 | Optimal attentional modulation of a neural population |
| Q36062574 | Optimal deployment of attentional gain during fine discriminations |
| Q42283766 | Orientation Probability and Spatial Exogenous Cuing Improve Perceptual Precision and Response Speed by Different Mechanisms. |
| Q48012533 | Path perturbation detection tasks reduce MSTd neuronal self-movement heading responses |
| Q82679199 | Paying attention to correlated neural activity |
| Q38766475 | Perceptual Competition Promotes Suppression of Reward Salience in Behavioral Selection and Neural Representation. |
| Q45341498 | Perceptual Decisions in the Presence of Relevant and Irrelevant Sensory Evidence |
| Q35854550 | Perceptual consequences of feature-based attentional enhancement and suppression |
| Q44231286 | Perceptual learning of motion direction discrimination transfers to an opposite direction with TPE training |
| Q36145107 | Pitting binding against selection--electrophysiological measures of feature-based attention are attenuated by Gestalt object grouping. |
| Q33995427 | Population response profiles in early visual cortex are biased in favor of more valuable stimuli |
| Q42318268 | Pre-Cueing Effects: Attention or Mental Imagery? |
| Q43638338 | Predictive coding as a model of biased competition in visual attention. |
| Q49065552 | Predictive information speeds up visual awareness in an individuation task by modulating threshold setting, not processing efficiency |
| Q37235981 | Prefrontal Neurons Represent Motion Signals from Across the Visual Field But for Memory-Guided Comparisons Depend on Neurons Providing These Signals |
| Q45731586 | Prefrontal neurons of opposite spatial preference display distinct target selection dynamics. |
| Q48362140 | Preparatory α-band oscillations reflect spatial gating independently of predictions regarding target identity |
| Q38844562 | Presaccadic motion integration between current and future retinotopic locations of attended objects |
| Q93161682 | Preserved capacity for learning statistical regularities and directing selective attention after hippocampal lesions |
| Q90322465 | Prior object-knowledge sharpens properties of early visual feature-detectors |
| Q37466841 | Rapid neocortical dynamics: cellular and network mechanisms |
| Q30448175 | Rapid volitional control of apparent motion during percept generation |
| Q50618754 | Recent developments in a computational theory of visual attention (TVA). |
| Q48940317 | Receptive field shift and shrinkage in macaque middle temporal area through attentional gain modulation. |
| Q41179686 | Reconciling coherent oscillation with modulation of irregular spiking activity in selective attention: gamma-range synchronization between sensory and executive cortical areas |
| Q42522694 | Recurrent competition explains temporal effects of attention in MSTd |
| Q55280679 | Reliability-Weighted Integration of Audiovisual Signals Can Be Modulated by Top-down Attention. |
| Q35217642 | Representation of comparison signals in cortical area MT during a delayed direction discrimination task |
| Q33594378 | Representation of concurrent stimuli by population activity in visual cortex |
| Q36676472 | Searching for an oddball: neural correlates of singleton detection mode in parietal cortex. |
| Q97554421 | Selection history is relative |
| Q24599054 | Sensorimotor integration in speech processing: computational basis and neural organization |
| Q91580190 | Sensory and decisional components of endogenous attention are dissociable |
| Q48312998 | Separable mechanisms underlying global feature-based attention. |
| Q33649439 | Sequential sensory and decision processing in posterior parietal cortex |
| Q46667889 | Serotonin shifts first-spike latencies of inferior colliculus neurons. |
| Q55447957 | Short and Long-Term Attentional Firing Rates Can Be Explained by ST-Neuron Dynamics. |
| Q30461142 | Short-term plasticity as a neural mechanism supporting memory and attentional functions |
| Q42065860 | Similarity relations in visual search predict rapid visual categorization. |
| Q37499547 | Space-, object-, and feature-based attention interact to organize visual scenes |
| Q47690834 | Spatial Attention Reduces Burstiness in Macaque Visual Cortical Area MST. |
| Q35063794 | Spatial and feature-based attention in a layered cortical microcircuit model |
| Q34108433 | Spatial attention improves the quality of population codes in human visual cortex |
| Q34969491 | Spatial attention modulates center-surround interactions in macaque visual area v4 |
| Q37870257 | Spatial attention, feature-based attention, and saccades: three sides of one coin? |
| Q39355571 | Spatially global representations in human primary visual cortex during working memory maintenance. |
| Q48198934 | Spatially tuned normalization explains attention modulation variance within neurons |
| Q48444048 | Spatiotemporal dynamics of feature-based attention spread: evidence from combined electroencephalographic and magnetoencephalographic recordings. |
| Q41207432 | Spike synchrony generated by modulatory common input through NMDA-type synapses |
| Q26866226 | Spikes, BOLD, attention, and awareness: a comparison of electrophysiological and fMRI signals in V1 |
| Q57472219 | State dependence of stimulus-induced variability tuning in macaque MT |
| Q30826163 | Stimulus competition mediates the joint effects of spatial and feature-based attention |
| Q48456629 | Stimulus context alters neural representations of faces in inferotemporal cortex |
| Q33871602 | Stimulus-specific delay activity in human primary visual cortex |
| Q92451194 | Strategic deployment of feature-based attentional gain in primate visual cortex |
| Q28298546 | Subcortical modulation of attention counters change blindness |
| Q35568554 | Suppression effects in feature-based attention. |
| Q36534163 | Task contingencies and perceptual strategies shape behavioral effects on neuronal response profiles |
| Q48206940 | Task-specific, dimension-based attentional shaping of motion processing in monkey area MT. |
| Q27313590 | Temporal correlation mechanisms and their role in feature selection: a single-unit study in primate somatosensory cortex |
| Q36945122 | Temporal dynamics of neuronal modulation during exogenous and endogenous shifts of visual attention in macaque area MT |
| Q34627121 | Texture discriminability in monkey inferotemporal cortex predicts human texture perception |
| Q37903678 | The Role of Alpha-Band Brain Oscillations as a Sensory Suppression Mechanism during Selective Attention. |
| Q34108451 | The effect of attention on neuronal responses to high and low contrast stimuli |
| Q90118149 | The lateral prefrontal cortex of primates encodes stimulus colors and their behavioral relevance during a match-to-sample task |
| Q37382989 | The normalization model of attention |
| Q42175557 | The relationship between visual attention and visual working memory encoding: A dissociation between covert and overt orienting. |
| Q64892414 | The role of inferior frontal junction in controlling the spatially global effect of feature-based attention in human visual areas. |
| Q35942432 | The role of judgment frames and task precision in object attention: Reduced template sharpness limits dual-object performance |
| Q64269137 | The role of putative human anterior intraparietal sulcus area in observed manipulative action discrimination |
| Q37346200 | The spread of attention across features of a surface |
| Q38135036 | Theory of mind: a neural prediction problem |
| Q36982878 | There's Waldo! A Normalization Model of Visual Search Predicts Single-Trial Human Fixations in an Object Search Task |
| Q42369796 | Top-Down Control of Visual Attention by the Prefrontal Cortex. Functional Specialization and Long-Range Interactions. |
| Q42219234 | Using neuronal populations to study the mechanisms underlying spatial and feature attention. |
| Q34521269 | Vernier perceptual learning transfers to completely untrained retinal locations after double training: a "piggybacking" effect |
| Q37505006 | Visual Prediction Error Spreads Across Object Features in Human Visual Cortex |
| Q38376977 | Visual attention mitigates information loss in small- and large-scale neural codes. |
| Q36077550 | Visual attention: the past 25 years |
| Q41841427 | When attention wanders: how uncontrolled fluctuations in attention affect performance. |
| Q36378751 | When emotion blinds: a spatiotemporal competition account of emotion-induced blindness |
| Q84665535 | When feature-based attention distorts neural representations |
| Q30536637 | Working memory and decision processes in visual area v4 |
| Q30571270 | fMRI correlates of object-based attentional facilitation vs. suppression of irrelevant stimuli, dependent on global grouping and endogenous cueing |
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