The short-latency dopamine signal: a role in discovering novel actions?
about
Neuronal Reward and Decision Signals: From Theories to Data.Dopamine in motivational control: rewarding, aversive, and alertingAffective neuroscience of pleasure: reward in humans and animalsConditional routing of information to the cortex: a model of the basal ganglia's role in cognitive coordinationDissociable cost and benefit encoding of future rewards by mesolimbic dopamine.Neuromodulated Spike-Timing-Dependent Plasticity, and Theory of Three-Factor Learning RulesThe role of efference copy in striatal learningThe role of the basal ganglia in learning and memory: insight from Parkinson's diseaseHabituation of reinforcer effectivenessInfants in control: rapid anticipation of action outcomes in a gaze-contingent paradigmAltered Corticostriatal Connectivity and Exploration/Exploitation Imbalance Emerge as Intermediate Phenotypes for a Neonatal Dopamine Dysfunction.The C. elegans D2-like dopamine receptor DOP-3 decreases behavioral sensitivity to the olfactory stimulus 1-octanolSafety Needs Mediate Stressful Events Induced Mental DisordersThe Psychology and Neuroscience of CuriosityA neural computational model of incentive salienceThe detection of novelty relies on dopaminergic signaling: evidence from apomorphine's impact on the novelty N2Imitation learning based on an intrinsic motivation mechanism for efficient coding.Covert skill learning in a cortical-basal ganglia circuitLateral habenula neurons signal errors in the prediction of reward information.Dopamine neurons encode errors in predicting movement trigger occurrence.Feeling safe in the plane: neural mechanisms underlying superior action control in airplane pilot trainees--a combined EEG/MRS studyEarly sensory pathways for detection of fearful conditioned stimuli: tectal and thalamic relays.Thalamic POm projections to the dorsolateral striatum of rats: potential pathway for mediating stimulus-response associations for sensorimotor habitsNeural signals of extinction in the inhibitory microcircuit of the ventral midbrainAssociation between locomotor response to novelty and light reinforcement: sensory reinforcement as a rodent model of sensation seeking.Human striatum is differentially activated by delayed, omitted, and immediate registering feedbackNeural correlates of active avoidance behavior in superior colliculus.Midbrain dopamine neurons signal preference for advance information about upcoming rewards.Conjunctive encoding of movement and reward by ventral tegmental area neurons in the freely navigating rodent.Comparing the role of the anterior cingulate cortex and 6-hydroxydopamine nucleus accumbens lesions on operant effort-based decision making.Prefrontal cortex and basal ganglia contributions to visual working memoryCaudate nucleus signals for breaches of expectation in a movement observation paradigm.Start/stop signals emerge in nigrostriatal circuits during sequence learningA biologically plausible embodied model of action discovery.The nucleus accumbens as a nexus between values and goals in goal-directed behavior: a review and a new hypothesis.Prolonged dopamine signalling in striatum signals proximity and value of distant rewardsKeep focussing: striatal dopamine multiple functions resolved in a single mechanism tested in a simulated humanoid robotCortical Coupling Reflects Bayesian Belief Updating in the Deployment of Spatial AttentionAdaptive behaviour and feedback processing integrate experience and instruction in reinforcement learning.Spike-based reinforcement learning in continuous state and action space: when policy gradient methods fail
P2860
Q22241960-ED6775EA-D271-4692-BE7E-C46E23BA7F35Q22251253-D00A3971-F3D9-4C8C-B89A-E4B9B454465EQ24627696-E59DF6F0-749F-433D-98C8-EBD95A973A92Q24631808-5E720C7A-1680-410F-AD38-035FF73F6176Q24651590-3D7D334F-5E83-460D-BA86-852AD52B0B3EQ26772828-08F4F48F-E149-479D-8C4B-5F3048C21BB8Q26824930-73CEF31D-060F-41CF-818E-86CDCDA4D125Q26851807-50558164-139B-407B-8E98-ACC37DD308C3Q26864421-3DF2A2FD-6B0F-41E5-A0E5-786145D32595Q27309226-999EC69D-33E5-4C00-BD59-F3D2F869425AQ27310987-96A5FCC7-EEE8-49ED-807D-CF8EE8AE3775Q27333780-453BB41E-0168-4D92-B089-0C7410D78573Q28072719-63273D08-7E6D-4FC8-8553-A66D848F2A22Q28081077-D7D7A236-3B31-4F59-B439-DA7B6F6E1545Q28475726-25360549-2168-471A-A816-4B744064922EQ28534061-EAAB56C6-3AB9-4B50-BE75-AED67556CEDBQ28661766-4FF5BCF6-AA92-4C54-9021-5F829CC2FDC8Q28728290-611340F8-B85D-470B-AD67-4DDBFE4AE202Q29394213-C09937B9-073E-40DB-A77A-969BF92986B4Q30391009-045A0DE9-F417-4C77-9FBA-C0294F739184Q30401851-1FE9C1F1-C418-4336-862F-DF983CFC1C80Q30444770-7012C3B1-2112-4244-B005-2B8BECA18AA4Q30452960-D3DDCE48-DA19-4ACD-9110-7C14D6681A82Q30453002-B655434F-349F-4320-B5B2-A896AB638A04Q30454915-FCF3D220-88DB-464A-BCE6-1062E17D4106Q30463712-4F7E7AA4-ACD9-485F-ACE2-0263E9DF74D9Q30478448-BAE48A3E-15E8-4C29-A831-B8C79B73A8C4Q30489370-8FD5E903-BD91-46BE-9911-69B28D3D2C1EQ30494344-4E059E92-356D-4EBD-B8C4-5E997B383E99Q30496968-0B40BC3D-2CF9-40AE-AE84-B77DAD4E6EFAQ30497148-2855C1B5-FB58-4232-BD2B-1D1F05C5BFB7Q30499725-C75ECE4B-1EE4-48F1-8C04-226CBE7872DEQ30525757-2891DD1C-ED18-41FB-8B9C-9CFB52F4671EQ30537439-AD2ACF5B-DAC1-46FD-8936-5A9AB93C1879Q30552763-6907C977-A7C6-4369-A5D4-553E4AD51088Q30572136-635CE76F-B550-4721-B4BA-6271C034B54EQ30572394-E1CEA74E-47D5-44A4-817C-FCA99B536B2AQ30661655-076EE70E-CA64-4201-A2E0-D7B880706024Q30838891-C25946F3-2F83-4C14-A028-F2DC28E7B1AAQ30972868-335A5BF4-526B-495B-BB18-F1E863B9E269
P2860
The short-latency dopamine signal: a role in discovering novel actions?
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
The short-latency dopamine signal: a role in discovering novel actions?
@ast
The short-latency dopamine signal: a role in discovering novel actions?
@en
type
label
The short-latency dopamine signal: a role in discovering novel actions?
@ast
The short-latency dopamine signal: a role in discovering novel actions?
@en
prefLabel
The short-latency dopamine signal: a role in discovering novel actions?
@ast
The short-latency dopamine signal: a role in discovering novel actions?
@en
P356
P1476
The short-latency dopamine signal: a role in discovering novel actions?
@en
P2093
Kevin Gurney
Peter Redgrave
P2888
P304
P356
10.1038/NRN2022
P407
P577
2006-11-08T00:00:00Z