A mechanism for error detection in speeded response time tasks.
about
Production, control, and visual guidance of saccadic eye movementsAdolescent neighborhood quality predicts adult dACC response to social exclusion.Making and monitoring errors based on altered auditory feedback.Relation of frontal eye field activity to saccade initiation during a countermanding task.Neural Mechanisms of Post-error Adjustments of Decision Policy in Parietal Cortex.A perceptual representation in the frontal eye field during covert visual search that is more reliable than the behavioral report.Impact of feedback on three phases of performance monitoringDecreased response inhibition in middle-aged male patients with type 2 diabetes.Error effects in anterior cingulate cortex reverse when error likelihood is highPerformance monitoring local field potentials in the medial frontal cortex of primates: supplementary eye field.Event-related potentials elicited by errors during the stop-signal task. I. Macaque monkeysFunctional heterogeneity of conflict, error, task-switching, and unexpectedness effects within medial prefrontal cortex.Medial prefrontal cortex predicts and evaluates the timing of action outcomes.Dissociable correlates of response conflict and error awareness in error-related brain activity.Effect of d-amphetamine on post-error slowing in healthy volunteers.Abnormal error monitoring in math-anxious individuals: evidence from error-related brain potentials.Context specificity of post-error and post-conflict cognitive control adjustments.Disentangling the impacts of outcome valence and outcome frequency on the post-error slowing.Dissociation of response and feedback negativity in schizophrenia: electrophysiological and computational evidence for a deficit in the representation of valueThe Impact of Deliberative Strategy Dissociates ERP Components Related to Conflict Processing vs. Reinforcement LearningEvent-related potentials elicited by errors during the stop-signal task. II: human effector-specific error responses.A Neuroeconomics Analysis of Investment Process with Money Flow Information: The Error-Related NegativityElectrocortical and behavioral measures of response monitoring in young children during a Go/No-Go taskNeural systems for error monitoring: recent findings and theoretical perspectives.Increased error-related brain activity distinguishes generalized anxiety disorder with and without comorbid major depressive disorder.Training-induced behavioral and brain plasticity in inhibitory control.Dorsal medial prefrontal cortex plays a necessary role in rapid error prediction in humans.Posterror slowing predicts rule-based but not information-integration category learning.Self-identification and empathy modulate error-related brain activity during the observation of penalty shots between friend and foeIntention, choice, and the medial frontal cortex.Neural control of visual search by frontal eye field: effects of unexpected target displacement on visual selection and saccade preparationNeurocomputational mechanisms of reinforcement-guided learning in humans: a review.Proactive adjustments of response strategies in the stop-signal paradigmCausal control of medial-frontal cortex governs electrophysiological and behavioral indices of performance monitoring and learning.Computational models of performance monitoring and cognitive control.How we learn to make decisions: rapid propagation of reinforcement learning prediction errors in humans.The computational and neural basis of cognitive control: charted territory and new frontiers.A perspective on neural and cognitive mechanisms of error commission.Medial prefrontal cortex as an action-outcome predictorOlder adults display diminished error processing and response in a continuous tracking task.
P2860
Q24289015-1DF4B7E4-6A9F-4919-9482-C8470D72DD6EQ30303046-9E9ECD8C-01CE-4687-91E8-D3A47AF75693Q30366466-E10A3268-7CD9-44F2-9F41-14718EE46AC8Q30486525-3B14DE53-F0AB-4FDE-8C73-0CDD0A1D81E2Q30707041-2522CE8B-0D2C-43FF-A48B-D04FEF9A59E0Q33568179-3171699B-29BD-4C2E-AAE5-3A2E76CD0710Q33581684-9566CC5B-0F5F-4567-905F-67EB315A57EFQ33711491-FFF47825-668E-478F-BCBF-53E5E84EBA89Q33737856-0741DC79-06D5-43D6-9FFF-F0190202B3F2Q34151570-1E8374A4-D8A1-4BE5-B4AC-BBA49FB1A532Q34229763-60B243CF-45BB-412E-8D3A-9A8E9F0E09DDQ34233312-8F07F66B-BFFA-43D5-8ECB-F23637C544BCQ34543190-F4109585-6436-4B87-A3CD-338518F76593Q34556751-CD951438-2A90-4DED-8708-CBCFF1F0A0F7Q34562634-AC50D8B0-E9D0-43A8-B458-378C2EEAE167Q35044040-671F7701-0F61-4679-AA93-6A37E7F4C9CAQ35113360-1C0D5AE1-DF82-4E7E-8D09-D460C098B1ACQ35139271-CA3F7AE3-EC87-4B54-A200-251609D5B496Q35466449-BFE962F9-F5B7-4C0F-B4A6-FBD37BF752D1Q35867065-96CCCFD5-F27D-47CD-82C9-7407C7CB08E3Q35994917-BDDA11BF-CABF-447E-B62C-25E3F50A62E9Q36236340-532E3002-3758-44B1-B7FD-A69202090A29Q36493210-E6557958-0D82-48D5-B589-C5F67D330150Q36778587-2DAEF80E-7289-4AC6-8087-6670EEDB6625Q36859855-94D6CBD0-0616-47D6-9B6B-E6660487119FQ37060849-D150D522-0725-4CA5-840E-5E3B52E06248Q37097025-D7031972-5EBA-4E45-8A36-9D3EE63B0A52Q37100082-D7052D4E-485C-4D43-B623-AB6D5F59DB58Q37131246-25A8F79F-5D7B-4D43-A931-CAC2790789E0Q37133721-2A0E3343-A287-45CD-9279-1A1548CA1AEAQ37190477-4E739F67-9AC8-449B-A565-FC0A3231977AQ37203167-8735FB0B-AF01-40A3-B82F-98665B4D0A6DQ37213086-31A00619-D449-4B35-B7CE-50088CFC7CA7Q37650188-372688CF-626A-416A-BC7E-44558FF62388Q37848090-1DA5A4ED-3163-48EB-A241-376408AF2EBEQ38156215-5F00BBAC-4AB9-4933-A036-399203876338Q38235609-4BEB9B53-1395-473F-BC09-64F62C953591Q38382512-4A0D765F-6E75-413D-A428-E5BA9FA1C660Q38594398-4EBA9252-C115-4B7B-B083-A6D6FBF12FECQ38722651-982CF4FB-B96E-4893-B7B1-1D820D698473
P2860
A mechanism for error detection in speeded response time tasks.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
A mechanism for error detection in speeded response time tasks.
@en
A mechanism for error detection in speeded response time tasks.
@nl
type
label
A mechanism for error detection in speeded response time tasks.
@en
A mechanism for error detection in speeded response time tasks.
@nl
prefLabel
A mechanism for error detection in speeded response time tasks.
@en
A mechanism for error detection in speeded response time tasks.
@nl
P2093
P1476
A mechanism for error detection in speeded response time tasks.
@en
P2093
Clay B Holroyd
Jonathan D Cohen
Michael G H Coles
P304
P356
10.1037/0096-3445.134.2.163
P50
P577
2005-05-01T00:00:00Z