Combining spatial and temporal expectations to improve visual perception.
about
Time in Cortical CircuitsTemporal orienting of attention can be preserved in normal aging.Predictive motor control of sensory dynamics in auditory active sensingNeuronal oscillations as a mechanistic substrate of auditory temporal prediction.Neural mechanisms of rhythm-based temporal prediction: Delta phase-locking reflects temporal predictability but not rhythmic entrainment.Temporal Prediction in lieu of Periodic StimulationTemporal Attention as a Scaffold for Language Development.Children can implicitly, but not voluntarily, direct attention in time.Independent effects of bottom-up temporal expectancy and top-down spatial attention. An audiovisual study using rhythmic cueing.Developmental Trajectories of Internally and Externally Driven Temporal PredictionTop-down control of the phase of alpha-band oscillations as a mechanism for temporal prediction.Visual Benefits in Apparent Motion Displays: Automatically Driven Spatial and Temporal Anticipation Are Partially DissociatedExpectations developed over multiple timescales facilitate visual search performance.Preserved memory-based orienting of attention with impaired explicit memory in healthy ageing.Temporal Expectations Guide Dynamic Prioritization in Visual Working Memory through Attenuated α OscillationsHigh-speed incoming infrared target detection by fusion of spatial and temporal detectors.Endogenous temporal attention in the absence of stimulus-driven cues emerges in the second year of life.Temporal prediction errors modulate task-switching performance.Temporal Regularity of the Environment Drives Time Perception.Task relevance modulates the behavioural and neural effects of sensory predictions.Early behavioural facilitation by temporal expectations in complex visual-motor sequences.Anticipated moments: temporal structure in attention.Evaluating the feasibility of the steady-state visual evoked potential (SSVEP) to study temporal attention.Temporal alignment of anticipatory motor cortical beta lateralisation in hidden visual-motor sequences.Power and Phase of Alpha Oscillations Reveal an Interaction between Spatial and Temporal Visual Attention."Nonspatial" Attentional Deficits Interact with Spatial Position in Neglect.Attention flexibly trades off across points in time.Toward the influence of temporal attention on the selection of targets in a visual search task: An ERP study.Learning temporal context shapes prestimulus alpha oscillations and improves visual discrimination performance.Memory and learning for visual signals in time and space.Endogenous temporal and spatial orienting: Evidence for two distinct attentional mechanisms.Additive and interactive effects of spatial attention and expectation on perceptual decisions.Organizational principles of multidimensional predictions in human auditory attentionAnticipatory neural dynamics of spatial-temporal orienting of attention in younger and older adults
P2860
Q26782919-6122FC6E-DBAC-461C-B9EC-E30B7D7FCC8CQ27333600-CAA20AAB-472A-4D05-B9DB-975988A608A4Q28080765-407D7D60-1A6D-48D1-9C1F-C645F0ACA5F9Q28082136-ED6BFB02-2F23-47F7-8C0D-39C3D211D054Q30362537-B98AF47E-DBC2-409A-9F5D-F066257B4A83Q30375983-80535738-E949-4D7D-87A9-C6D16B7947D3Q30391238-D2E72CB7-2DB6-4FCF-AECD-8AC4BBFACA0AQ30413846-58A0E100-9F72-4FA3-AA91-D945A7A5BC7CQ30420523-E278A43F-24BC-49FF-B33D-AC91F55D464AQ35742528-F2F12793-8127-49D3-A83E-8B24C1B14594Q35845911-3226DFC8-5A87-4656-8AC0-9449FD6CEE80Q35856782-F32F3AAA-17D6-4909-8D04-6491B588F78DQ35878779-D2A8AC13-B75B-400B-89BE-6BCA52E4C944Q36509264-2FFE8C58-76C0-4B95-9186-110455D50420Q37592148-C08C16EC-EB91-4921-8EC2-A7E8A74957A7Q40647105-232D9862-7E34-4D62-B20A-E751413BD90EQ41489268-F6CFF7D7-1664-4A57-B11E-497B7F0BB348Q42155866-EC7C6EC0-A3BE-4CBE-B44F-687D31859C26Q42409032-49536B70-218F-4479-B288-EF1502685A31Q47098294-53748DD7-A0FA-4687-BD5E-1C7FD68069B8Q47146145-854C6B7B-7D43-46B0-B46D-699D8B95B8EFQ47929297-E68F3973-D417-4C5F-8D00-914E2CA66DC6Q47978192-A1837F50-144C-4073-976D-9B159A9E1B17Q48108170-17F76DB9-6B76-4746-A5D3-6BD98893F937Q48336920-792EC700-5685-4065-9F23-D24EFB99732FQ48336928-8150D39A-C693-4D5E-87B2-808B217AF74AQ48372073-39A5F69E-C68A-4780-80A9-CD65ED323AB3Q48593063-03A4A637-1B71-41CC-ABEB-E01A585FCF57Q50437728-3E167A82-4C58-41ED-A6F7-A9D5F8096D75Q50456517-4F141549-CBEE-4E1E-B295-22D072DD681AQ50627288-4CFF7A5C-A6C2-4549-A54D-CDE3AEFEB869Q55176942-E91F9612-D55E-4088-BD7E-F83280B51B49Q57039777-4ACFD53A-B6AF-4342-B77A-4549824BBA2BQ58778295-88C9FE39-4B3D-4827-BB0F-95A2BBAAA3C3
P2860
Combining spatial and temporal expectations to improve visual perception.
description
2014 nî lūn-bûn
@nan
2014 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Combining spatial and temporal expectations to improve visual perception.
@ast
Combining spatial and temporal expectations to improve visual perception.
@en
type
label
Combining spatial and temporal expectations to improve visual perception.
@ast
Combining spatial and temporal expectations to improve visual perception.
@en
prefLabel
Combining spatial and temporal expectations to improve visual perception.
@ast
Combining spatial and temporal expectations to improve visual perception.
@en
P2860
P356
P1433
P1476
Combining spatial and temporal expectations to improve visual perception
@en
P2093
Anna C Nobre
Jéssica Pessoa
P2860
P356
10.1167/14.4.8
P577
2014-04-10T00:00:00Z