scholarly article | Q13442814 |
P356 | DOI | 10.1016/S1364-6613(00)01593-X |
P698 | PubMed publication ID | 11239812 |
P50 | author | Edward Awh | Q62067290 |
P2093 | author name string | J Jonides | |
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P433 | issue | 3 | |
P921 | main subject | attention | Q6501338 |
P304 | page(s) | 119-126 | |
P577 | publication date | 2001-03-01 | |
P1433 | published in | Trends in Cognitive Sciences | Q7838299 |
P1476 | title | Overlapping mechanisms of attention and spatial working memory | |
P478 | volume | 5 |
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Q48595659 | Attentional load interferes with target localization across saccades. |
Q43093264 | Attentive Tracking Disrupts Feature Binding in Visual Working Memory |
Q91887220 | Atypical Visual Scan Path Affects Remembering in ADHD |
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Q38844261 | Central attention is serial, but midlevel and peripheral attention are parallel-A hypothesis. |
Q34156421 | Changing concepts of working memory |
Q38194033 | Cogmed working memory training product review |
Q49874469 | Cognitive Control Over Prospective Task-set Interference |
Q50593744 | Color is processed less efficiently than orientation in change detection but more efficiently in visual search. |
Q37417161 | Common and distinct neural correlates of perceptual and memorial selection |
Q36284906 | Common behavioral clusters and subcortical anatomy in stroke |
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Q28076996 | Conclusions about interventions, programs, and approaches for improving executive functions that appear justified and those that, despite much hype, do not |
Q34132238 | Concurrent working memory load can reduce distraction |
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Q38018943 | Different varieties of uncertainty in human decision-making |
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Q37280595 | Directed forgetting and directed remembering in visual working memory |
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Q35738432 | Does modulation of selective attention to features reflect enhancement or suppression of neural activity? |
Q91796936 | Does spatial attention modulate sensory memory? |
Q48146682 | Dopaminergic genotype biases spatial attention in healthy children |
Q37365594 | Double dissociation between action-driven and perception-driven conflict resolution invoking anterior versus posterior brain systems |
Q37444173 | Dual-task interference in visual working memory: a limitation in storage capacity but not in encoding or retrieval |
Q90168209 | EEG dynamics reveal a dissociation between storage and selective attention within working memory |
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Q33742234 | Early top-down control of visual processing predicts working memory performance |
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Q46042835 | Enhancing Spatial Attention and Working Memory in Younger and Older Adults |
Q37128579 | Enhancing visual working memory encoding: The role of target novelty |
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Q35185083 | Evidence for working memory storage operations in perceptual cortex |
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Q41443450 | Executive and perceptual distraction in visual working memory |
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Q51887484 | Exogenous and endogenous spatial attention effects on visuospatial working memory. |
Q38630908 | Explicit Goal-Driven Attention, Unlike Implicitly Learned Attention, Spreads to Secondary Tasks. |
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Q49087914 | Paying attention to working memory: Similarities in the spatial distribution of attention in mental and physical space |
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Q42005403 | Single Canonical Model of Reflexive Memory and Spatial Attention |
Q33822338 | Spatial and object working memory deficits in Parkinson's disease are due to impairment in different underlying processes |
Q46122971 | Spatial attention during saccade decisions |
Q46143677 | Spatial attention interacts with serial-order retrieval from verbal working memory |
Q37870257 | Spatial attention, feature-based attention, and saccades: three sides of one coin? |
Q50595627 | Spatial constancy of attention across eye movements is mediated by the presence of visual objects. |
Q37215622 | Spatial neglect and attention networks |
Q51026626 | Spatial short-term memory assists in maintaining occluded objects. |
Q48216130 | Spatial working memory activity of the caudate nucleus is sensitive to frame of reference |
Q33629865 | Spatial working memory alters the efficacy of input to visual cortex |
Q51997880 | Spatial working memory and inhibition of return. |
Q36959226 | Spatial working memory deficits represent a core challenge for rehabilitating neglect. |
Q36350212 | Spatial working memory for locations specified by vision and audition: testing the amodality hypothesis |
Q40302930 | Spatial working memory interferes with explicit, but not probabilistic cuing of spatial attention |
Q50079479 | Spatially Selective Alpha Oscillations Reveal Moment-by-Moment Trade-offs between Working Memory and Attention |
Q34430320 | Spatially distributed encoding of covert attentional shifts in human thalamus. |
Q39355571 | Spatially global representations in human primary visual cortex during working memory maintenance. |
Q48222727 | Spatio-temporal working-memory and short-term object-location tasks use different memory mechanisms |
Q33575099 | Stage effects of negative emotion on spatial and verbal working memory |
Q33871602 | Stimulus-specific delay activity in human primary visual cortex |
Q48346318 | Strength of retinotopic representation of visual memories is modulated by strategy |
Q39353592 | Studying visual attention using the multiple object tracking paradigm: A tutorial review |
Q51886590 | Subliminally presented and stored objects capture spatial attention. |
Q48377949 | Support for distinct subcomponents of spatial working memory: a double dissociation between spatial-simultaneous and spatial-sequential performance in unilateral neglect |
Q38398898 | Sustained and transient neural modulations in prefrontal cortex related to declarative long-term memory, working memory, and attention |
Q45815082 | Sustained multifocal attentional enhancement of stimulus processing in early visual areas predicts tracking performance. |
Q41902833 | Switching Attention Within Working Memory is Reflected in the P3a Component of the Human Event-Related Brain Potential |
Q50664947 | Task difficulty in mental arithmetic affects microsaccadic rates and magnitudes. |
Q51022197 | Task-based working memory guidance of visual attention. |
Q57794110 | Testing the efforts model of simultaneous interpreting: An ERP study |
Q50531651 | The Benefit of Attention-to-Memory Depends on the Interplay of Memory Capacity and Memory Load. |
Q26766031 | The Development of Attention Systems and Working Memory in Infancy |
Q35840945 | The Effects of Feature-Based Priming and Visual Working Memory on Oculomotor Capture. |
Q35995608 | The Focus of Attention in Visual Working Memory: Protection of Focused Representations and Its Individual Variation. |
Q64100932 | The Graded Fate of Unattended Stimulus Representations in Visuospatial Working Memory |
Q36098813 | The Neural Dynamics of Fronto-Parietal Networks in Childhood Revealed using Magnetoencephalography |
Q46754042 | The aftermath of memory retrieval for recycling visual working memory representations |
Q51968401 | The bouncer in the brain. |
Q43561516 | The boundary conditions of priming of visual search: from passive viewing through task-relevant working memory load |
Q30854959 | The cognitive neuroscience of working memory |
Q48917113 | The effect of memory load on cortical activity in the spatial working memory circuit |
Q51966205 | The effects of a task-irrelevant visual event on spatial working memory. |
Q48622709 | The effects of illusory line motion on incongruent saccades: implications for saccadic eye movements and visual attention |
Q42269657 | The effects of sequential attention shifts within visual working memory |
Q51868651 | The enhancement of visuospatial processing efficiency through Buddhist Deity meditation. |
Q48245276 | The functional neuroanatomy of human working memory revisited. Evidence from 3-T fMRI studies using classical domain-specific interference tasks |
Q30357372 | The impact of early visual cortex transcranial magnetic stimulation on visual working memory precision and guess rate. |
Q35472189 | The impact of executive capacity and age on mechanisms underlying multidimensional feature selection |
Q45330832 | The interrelations between verbal working memory and visual selection of emotional faces |
Q43682126 | The mental wormhole: internal attention shifts without regard for distance |
Q24568203 | The mind and brain of short-term memory |
Q37683119 | The neurophysiological index of visual working memory maintenance is not due to load dependent eye movements |
Q36903509 | The objects of visuospatial short-term memory: Perceptual organization and change detection. |
Q35054944 | The precision of visual working memory is set by allocation of a shared resource. |
Q50609458 | The reliability of retro-cues determines the fate of noncued visual working memory representations. |
Q36080041 | The role of depth of encoding in attentional capture |
Q41472594 | The role of early visual cortex in visual short-term memory and visual attention. |
Q36168590 | The role of working memory representations in the control of attention |
Q34324765 | The steady-state visual evoked potential reveals neural correlates of the items encoded into visual working memory |
Q30446122 | The strategic retention of task-relevant objects in visual working memory |
Q37054753 | The strength of attentional biases reduces as visual short-term memory load increases |
Q51005193 | The time course of online trajectory corrections in memory-guided saccades. |
Q42118827 | The time course of protecting a visual memory representation from perceptual interference |
Q36574260 | The time course of visuo-spatial working memory updating revealed by a retro-cuing paradigm. |
Q36597919 | The topography of alpha-band activity tracks the content of spatial working memory |
Q34766002 | The working memory stroop effect: when internal representations clash with external stimuli |
Q62610537 | Theory and Measurement of Working Memory Capacity Limits |
Q64963352 | Time-varying whole-brain functional network connectivity coupled to task engagement. |
Q39928493 | Top-Down Activation of Spatiotopic Sensory Codes in Perceptual and Working Memory Search. |
Q34091884 | Top-down modulation of visual feature processing: the role of the inferior frontal junction |
Q34114941 | Top-down modulation: bridging selective attention and working memory |
Q34450400 | Top-down suppression deficit underlies working memory impairment in normal aging |
Q36904288 | Toward the neural mechanisms of reduced working memory capacity in schizophrenia |
Q36841545 | Towards an integrative theory of consciousness: part 1 (neurobiological and cognitive models). |
Q48416683 | Tracking the time-course of attentional involvement in spatial working memory: an event-related potential investigation |
Q47369134 | Tracking working memory maintenance with pupillometry |
Q44953521 | Trade-off in object versus spatial visualization abilities: restriction in the development of visual-processing resources |
Q33901442 | Understanding age-related reductions in visual working memory capacity: examining the stages of change detection |
Q48421088 | Unleashing potential: transcranial direct current stimulation over the right posterior parietal cortex improves change detection in low-performing individuals |
Q36001169 | Variability in encoding precision accounts for visual short-term memory limitations |
Q37069663 | Visual Foraging With Fingers and Eye Gaze |
Q51556246 | Visual Memories Bypass Normalization. |
Q50311934 | Visual memory and sustained attention impairment in youths with autism spectrum disorders |
Q44599482 | Visual memory for feature bindings: the disruptive effect of responding to new perceptual input |
Q33853889 | Visual memory needs categories. |
Q37486912 | Visual neglect: is there a relationship between impaired spatial working memory and re-cancellation? |
Q47556675 | Visual short-term memory activity in parietal lobe reflects cognitive processes beyond attentional selection. |
Q40610782 | Visual working memory |
Q91724209 | Visual working memory directly alters perception |
Q36847348 | Visual-spatial attention aids the maintenance of object representations in visual working memory |
Q88877158 | Visuospatial Working Memory as a Fundamental Component of the Eye Movement System |
Q47988779 | Visuospatial and verbal memory in mental arithmetic. |
Q24648019 | What "works" in working memory? Separate systems for selection and updating of critical information |
Q51004506 | What does ipsilateral delay activity reflect? Inferences from slow potentials in a lateralized visual working memory task. |
Q38378852 | What's on your mind: the influence of the contents of working memory on choice |
Q51963869 | When loading working memory reduces distraction: behavioral and electrophysiological evidence from an auditory-visual distraction paradigm. |
Q36662067 | Where do we store the memory representations that guide attention? |
Q90844464 | Where is the "where" in the brain? A meta-analysis of neuroimaging studies on spatial cognition |
Q38378390 | Word Learning Deficits in Children With Dyslexia |
Q49342285 | Working Memory Enhances Cortical Representations via Spatially Specific Coordination of Spike Times. |
Q92238599 | Working Memory Maintenance Modulates Serial Dependence Effects of Perceived Emotional Expression |
Q55003398 | Working Memory and Consciousness: The Current State of Play. |
Q50683235 | Working memory - not processing speed - mediates fluid intelligence deficits associated with attention deficit/hyperactivity disorder symptoms. |
Q24542449 | Working memory as an emergent property of the mind and brain |
Q36673859 | Working memory as internal attention: toward an integrative account of internal and external selection processes |
Q36399223 | Working memory operates over the same representations as attention. |
Q47894403 | Working memory performance and exposure to pleasant and unpleasant ambient odor: is spatial span special? |
Q30502119 | Working memory templates are maintained as feature-specific perceptual codes |
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