Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
about
Inferring on the intentions of others by hierarchical Bayesian learningCortical Coupling Reflects Bayesian Belief Updating in the Deployment of Spatial AttentionHierarchical prediction errors in midbrain and septum during social learning.Toward a new application of real-time electrophysiology: online optimization of cognitive neurosciences hypothesis testing.A model-based analysis of impulsivity using a slot-machine gambling paradigmCholinergic stimulation enhances Bayesian belief updating in the deployment of spatial attentionBayesian modeling of flexible cognitive controlPrecision and neuronal dynamics in the human posterior parietal cortex during evidence accumulationOn forward inferences of fast and slow readers. An eye movement study.Modeling the Evolution of Beliefs Using an Attentional Focus Mechanism.Temporally Dissociable Contributions of Human Medial Prefrontal Subregions to Reward-Guided Learning.Attentional Effects on Phenomenological Appearance: How They Change with Task Instructions and Measurement Methods.Pharmacological Fingerprints of Contextual Uncertainty.Executive Dysfunctions and Event-Related Brain Potentials in Patients with Amyotrophic Lateral SclerosisAutism, oxytocin and interoceptionDissociable effects of surprise and model update in parietal and anterior cingulate cortexUpdating of attentional and premotor allocation resources as function of previous trial outcome.Can Bayesian Theories of Autism Spectrum Disorder Help Improve Clinical Practice?Comparative Analysis of Behavioral Models for Adaptive Learning in Changing Environments.An aberrant precision account of autism.Active inference, evidence accumulation, and the urn taskUncertainty in perception and the Hierarchical Gaussian Filter.Sure enough: efficient Bayesian learning and choice.Causal evidence for learning-dependent frontal-lobe contributions to cognitive control.Task relevance modulates the behavioural and neural effects of sensory predictions.Developmental Changes in Learning: Computational Mechanisms and Social Influences.Attentional gain is modulated by probabilistic feature expectations in a spatial cueing task: ERP evidence.A Computational Account of Optimizing Social Predictions Reveals That Adolescents Are Conservative Learners in Social Contexts.Adults with autism overestimate the volatility of the sensory environment.Cultural effects on computational metrics of spatial and temporal context.Contextual factors multiplex to control multisensory processes.Understanding active sampling strategies: Empirical approaches and implications for attention and decision research.Integrating modality-specific expectancies for the deployment of spatial attention.Cue-target contingencies modulate voluntary orienting of spatial attention: dissociable effects for speed and accuracy.Prior knowledge of spatiotemporal configuration facilitates crossmodal saccadic response : A TWIN analysis.Attention alters predictive processing.The impact of probabilistic feature cueing depends on the level of cue abstraction.Modeling subjective relevance in schizophrenia and its relation to aberrant salience
P2860
Q27321128-DC9A75E6-E8C5-4417-A0DC-ACFFAF532E3EQ30661655-8BD0006A-1161-4821-BD62-E4748562614BQ30845294-21C09900-EA83-47E2-9A52-4E1F428D68F2Q33788908-35418217-D760-4CD5-8702-693D37188A9CQ33840607-7DD0E055-50E1-4656-A911-BA37CAC4212EQ34537121-5B135D77-7146-4FFE-A33C-9E69E4CC9063Q34619946-DE5BC571-4759-4CF4-84BD-6624FB1D7FC2Q35013534-F4CFFFBB-E577-4F95-ADDC-3CAD3B890662Q35081745-6780C542-C3E6-4E7F-A22E-33CADBD15742Q35818669-AC669164-2F2B-48FA-B48A-54543C5ADD89Q35941377-0CCAFA67-689B-44AD-83E6-38EC709F5211Q35972457-65C004AE-FF36-4FB0-81DA-889B312CAD92Q36192604-C4DFACA1-46EF-448E-BA85-AEFE3683E830Q36381707-25715E15-7C80-44AD-8CA7-067976AC5A76Q36501651-F06E5C1F-E614-4172-BD4A-6560585ADE92Q37191909-17D35908-2299-4100-8B0F-DCB5453FF58BQ37673100-9D9E6F5C-A6FC-49A6-9A11-E8203E12B967Q39631370-78027160-0C6D-46F6-AE55-2B8282A24F73Q39792733-3F7F0C0B-0345-4943-B4DF-BE9EC8A7587BQ39852583-5E592A03-9F5A-49AA-9E31-C9914883ECF0Q40519715-5C4B6DE6-332C-4FC5-8A44-7613C07C3EEBQ41724654-7687D39C-8C2B-4CB2-B0F9-C8BCE430CDC4Q46199220-F6E7933F-8772-42F3-80F0-F5243AC6A5C1Q46658877-2A29FC45-62B0-4A2C-B2A4-E8F3920CCD3AQ47098294-B7DDB1EC-7EBC-4BF5-83C7-A6A000AC6368Q47144951-201A941C-EE9B-42E6-847F-1EC7DC92DAE6Q47328845-F37A0D80-9A10-4F97-97FA-AA151BDAAE53Q47562879-4079A289-2CF4-47B1-A4B0-ACF0B273632CQ47745697-D6EE206B-17A2-4E58-B7A3-73E07BBBBBE1Q47825205-EBB1968F-7420-4499-9531-606510755E08Q47940011-EA024194-0D86-4548-AB53-A26017A1493FQ48109210-5F8C1F5D-781C-4FB5-A9C8-73A2835970BAQ48204486-088D9F47-F3C8-4F01-A5B3-0F3D098BB62FQ48283445-BA9B16FC-9878-4F47-8B25-7ED0D485A14CQ48832464-A02F1D9C-9FB6-46E6-BBC8-F0E3492FFC8EQ49075877-B3B36565-9440-4958-8F79-DF06E978804FQ50548687-A9CD2A0B-BDBD-4E40-A083-D2800A61DD43Q56750626-6E13A90D-EA8F-499C-9352-6429FEFC2048
P2860
Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
description
2013 nî lūn-bûn
@nan
2013 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
@ast
Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
@en
type
label
Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
@ast
Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
@en
prefLabel
Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
@ast
Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
@en
P2860
P50
P356
P1433
P1476
Spatial attention, precision, and Bayesian inference: a study of saccadic response speed
@en
P2093
Jon Driver
P2860
P304
P356
10.1093/CERCOR/BHS418
P577
2013-01-14T00:00:00Z