The decision value computations in the vmPFC and striatum use a relative value code that is guided by visual attention. - Wikidata - awgldk - TriplyDB

The decision value computations in the vmPFC and striatum use a relative value code that is guided by visual attention.

The decision value computations in the vmPFC and striatum use a relative value code that is guided by visual attention.

http://www.wikidata.org/entity/Q45937552

about

Changing value through cued approach: an automatic mechanism of behavior change.From Trust in Automation to Decision Neuroscience: Applying Cognitive Neuroscience Methods to Understand and Improve Interaction Decisions Involved in Human Automation Interaction Food Decision-Making: Effects of Weight Status and Age Value normalization in decision making: theory and evidence The child brain computes and utilizes internalized maternal choices.Activity in dlPFC and its effective connectivity to vmPFC are associated with temporal discounting How prior preferences determine decision-making frames and biases in the human brain.Appetitive traits from infancy to adolescence: using behavioral and neural measures to investigate obesity risk Diffusion Decision Model: Current Issues and History.Innovative Techniques for Evaluating Behavioral Nutrition Interventions.A distributed, hierarchical and recurrent framework for reward-based choice.Dorsal Anterior Cingulate Cortex: A Bottom-Up View.Reward value comparison via mutual inhibition in ventromedial prefrontal cortex Dissociable contributions of ventromedial prefrontal and posterior parietal cortex to value-guided choice.Specific contributions of ventromedial, anterior cingulate, and lateral prefrontal cortex for attentional selection and stimulus valuation.Informatic parcellation of the network involved in the computation of subjective value.Re-evaluating the role of the orbitofrontal cortex in reward and reinforcement.Neurons in the nucleus accumbens promote selection bias for nearer objects Aversive Pavlovian control of instrumental behavior in humans.Frontal-parietal and limbic-striatal activity underlies information sampling in the best choice problem.Directional influence between the human amygdala and orbitofrontal cortex at the time of decision-making.Neural mechanisms of economic commitment in the human medial prefrontal cortex Attention, reward, and information seeking.Functional connectivity with ventromedial prefrontal cortex reflects subjective value for social rewards.The strategy and motivational influences on the beneficial effect of neurostimulation: a tDCS and fNIRS study.fMRI and EEG predictors of dynamic decision parameters during human reinforcement learning.Reward and motivation in pain and pain relief Sensitivity of locus ceruleus neurons to reward value for goal-directed actions Using Neural Data to Test A Theory of Investor Behavior: An Application to Realization Utility.A common currency for the computation of motivational values in the human striatum.Connectivity reveals relationship of brain areas for reward-guided learning and decision making in human and monkey frontal cortex Signatures of Value Comparison in Ventral Striatum Neurons.A Map for Social Navigation in the Human Brain.Psychopathic tendencies and mesolimbic recruitment by cues for instrumental and passively obtained rewards.Preference Reversals in Decision Making Under Risk are Accompanied by Changes in Attention to Different Attributes.Neural mechanisms of foraging.Dynamic Interaction between Reinforcement Learning and Attention in Multidimensional Environments.An agent independent axis for executed and modeled choice in medial prefrontal cortex.A neural mechanism underlying failure of optimal choice with multiple alternatives Capturing the temporal evolution of choice across prefrontal cortex.

P2860

Q23891363-4CE70AC3-C841-43EC-8640-DBEEFC25A7D0 Q26738392-19B96AB9-13A6-41C8-9925-246691959433 Q26740473-C9385118-F6A1-45EF-890B-687761C0687F Q27027255-72D5AB67-F593-4D88-BD47-859B0CD9EF1D Q27315623-EC39D6E7-65DA-4486-8DFC-67B40D44AF96 Q28657676-BCA5440C-3821-48E7-A675-BB55DD2513A9 Q30395395-42652594-4A7F-4E67-9B26-C1A44A13FCB0 Q30596618-82969E64-43E0-47DA-A62B-DE4B5FB65544 Q31054308-9AE2E187-D23B-4C8D-80E5-1D8D5E969F2C Q31155103-D0E47505-EC9B-4362-9BB2-B72D2150FDC7 Q31162635-A83AFC19-F50A-4934-8E47-E1D20837CA50 Q33362988-C481C233-3B58-43F5-A5D1-78A103CBBCA7 Q33863537-322E7256-5B01-40A8-9FE4-140B3F21CD2E Q34105861-A1CD80B2-F888-441C-A77C-4F44B01ED2C6 Q34116795-CCA0306C-156B-40A0-B13A-FEE75520A718 Q34152349-AFCD539A-8645-48E9-A769-60D4548AC52F Q34225763-E818A6F5-6CE5-4AD2-97E1-89231B0EAE45 Q34345719-014CF6F7-269D-45EC-8BD1-C41A7F6E5055 Q34345853-325F2F0D-8F82-4A73-B4AD-39BB431EE5A8 Q34379002-9A5BE495-0D0B-45DB-B414-9AC88606BF5B Q34379350-872990D7-6C3A-4359-B2DC-C86E2618CFDC Q34485781-E77AE83B-9D4A-48E7-AA1B-8901C1ABBFD5 Q34491772-CC12483D-A6B1-4AD4-B2AC-B6951F6BB900 Q34597213-2A3AC7AA-C792-4A4D-891A-FD921E8601A5 Q34673889-23B32E46-DC7B-4E33-953D-FE8CAF91345A Q34946136-91CD02C0-4849-44A7-9FC1-0193732E4128 Q34993445-2CD7D5E7-4365-46EB-A882-BDFAE2EC72C1 Q35142934-A4F16CFC-D1CD-4A74-93F5-E7F5AF4D5064 Q35171247-90E17744-9355-47B0-9C39-2C7A13168AEB Q35237426-C5D067BB-6746-4F5A-951C-88A5609ECF59 Q35644813-F314F5C9-B859-4E98-ADDE-D49CB6EE0A9E Q35667229-D82D6270-2A73-49F8-88CB-C71ABE59CAD7 Q35682059-115EF1D6-11D2-448E-9205-AFB298EC89FA Q35720532-FFE51554-0AA6-4125-8E06-CA9033934C30 Q36104012-B6C09421-D2C8-4505-827D-422AAEB5A6B4 Q36230985-3F9C847F-3DB4-4A30-A5FD-53CFC7EC1F07 Q36254211-4DF3D908-AC03-45F2-AD20-4883D1D356AE Q36279472-B126EC80-0B92-463A-A58F-C69C70055610 Q36367479-AB20E321-2B63-4F35-A201-CA60EFD7ED1E Q36479677-80C1E725-96CB-4CB5-8401-8F31188435F8

P2860

The decision value computations in the vmPFC and striatum use a relative value code that is guided by visual attention.

http://www.wikidata.org/entity/Q45937552

description

2011 nî lūn-bûn

@nan

2011年の論文

@ja

2011年学术文章

@wuu

2011年学术文章

@zh

2011年学术文章

@zh-cn

2011年学术文章

@zh-hans

2011年学术文章

@zh-my

2011年学术文章

@zh-sg

2011年學術文章

@yue

2011年學術文章

@zh-hant

name

The decision value computation ...... is guided by visual attention.

@en

The decision value computation ...... is guided by visual attention.

@nl

type

label

The decision value computation ...... is guided by visual attention.

@en

The decision value computation ...... is guided by visual attention.

@nl

prefLabel

The decision value computation ...... is guided by visual attention.

@en

The decision value computation ...... is guided by visual attention.

@nl

P1433

Q45937552-20E7C5FB-993A-4717-B2FE-43EC0AE772D6

P1476

Q45937552-0FF26D3F-BB70-4AD8-A879-B78DD7F8516F

P2093

Q45937552-1A7F9791-C139-466A-82BD-DC4B1E070FF2

Q45937552-62DF85CB-8F7D-40CD-884E-64E9A75734EB

P304

Q45937552-306F340D-F733-4146-998C-349AF9B81655

P31

Q45937552-0D053462-E65E-4863-9B2C-A8C20C8A27F2

P356

Q45937552-1373D8B6-0E66-4F85-91E0-F781C0321EFD

P407

Q45937552-CBB763C4-C29B-4CFC-8C0E-48CBB589E643

P433

Q45937552-5DF07428-4F27-4E2C-9FD3-4CE772084195

P478

Q45937552-55B8BA47-850A-438A-B513-86647404413B

P50

Q45937552-1AD1F6AE-AF2C-49D5-8493-9C4470EFCB48

P577

Q45937552-5E94B3FA-B88C-427C-9416-4BDAA8A93EAF

P698

Q45937552-19978219-0913-4EB1-A233-9FD70C7B71C0

P921

Q45937552-341B6C64-001C-46BD-AA13-35132CE9C296

Q45937552-CCF4B1B6-4E4B-4978-8C79-D0B761009523

P932

Q45937552-1201875C-4145-473D-859B-914041E2B8C6

P356

JNEUROSCI.1246-11.2011

P1433

Journal of Neuroscience

P1476

The decision value computation ...... is guided by visual attention

@en

P2093

Antonio Rangel

http://www.w3.org/2001/XMLSchema#string

John P O'Doherty

http://www.w3.org/2001/XMLSchema#string

P304

13214-13223

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1523/JNEUROSCI.1246-11.2011

http://www.w3.org/2001/XMLSchema#string

P407

P433

37

http://www.w3.org/2001/XMLSchema#string

P478

31

http://www.w3.org/2001/XMLSchema#string

P50

P577

2011-09-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

21917804

http://www.w3.org/2001/XMLSchema#string

P921

corpus striatum

P932

6623246

http://www.w3.org/2001/XMLSchema#string