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The Symbol Grounding Problem Revisited: A Thorough Evaluation of the ANS Mapping Account and the Proposal of an Alternative Account Based on Symbol-Symbol AssociationsA rational analysis of the approximate number system.Distinct representations of subtraction and multiplication in the neural systems for numerosity and languageDistance in motion: response trajectories reveal the dynamics of number comparison.Evidence for direct retrieval of relative quantity information in a quantity judgment task: decimals, integers, and the role of physical similarityOrigins of mathematical intuitions: the case of arithmetic.The middle range of the number line orients attention to the left side of visual space.A unitary or multiple representations of numerical magnitude? - the case of structure in symbolic and non-symbolic quantitiesThe influence of math anxiety on symbolic and non-symbolic magnitude processing.Comparing the neural distance effect derived from the non-symbolic comparison and the same-different task.The importance of being relevant: modulation of magnitude representations.The evolution of numerical cognition: from number neurons to linguistic quantifiers.Decimal fraction representations are not distinct from natural number representations - evidence from a combined eye-tracking and computational modeling approach.The neural origin of the priming distance effect: distance-dependent recovery of parietal activation using symbolic magnitudes.The Source of the Symbolic Numerical Distance and Size Effects.Numerical distance and size effects dissociate in Indo-Arabic number comparison.Cross-notational semantic priming between symbolic and nonsymbolic numerosity.Enhancing semantic congruity effects with category-contingent comparative judgments.Processing of order information for numbers and months.On the relativity of relative frequencies.Multimodal semantic quantity representations: further evidence from korean sign language.Math anxiety: A review of its cognitive consequences, psychophysiological correlates, and brain bases.Proximity and gravity: modeling heaped self-reports.Probing the Neural Correlates of Number Processing.How numbers mean: Comparing random walk models of numerical cognition varying both encoding processes and underlying quantity representations.Numerical representation in the parietal lobes: abstract or not abstract?Testing a model of componential processing of multi-symbol numbers-evidence from measurement units.Automatic number priming effects in adults with and without mathematical learning disabilities.Unlimited capacity parallel quantity comparison of multiple integers.A physiologically-inspired model of numerical classification based on graded stimulus coding.Is there a generalized magnitude system in the brain? Behavioral, neuroimaging, and computational evidence.The role of similarity in updating numerical information in working memory: decomposing the numerical distance effect.Two-digit number processing: holistic, decomposed or hybrid? A computational modelling approach.Symbolic Numerical Distance Effect Does Not Reflect the Difference between Numbers.Individual differences influence two-digit number processing, but not their analog magnitude processing: a large-scale online study.Size congruity effects with two-digit numbers: expanding the number line?Dissociation of the distance effect and size effect in one-digit numbers.The magnitude representation of small and large symbolic numbers in the left and right hemisphere: an event-related fMRI study.Stimulus conflict predicts conflict adaptation in a numerical flanker task.Pointing to numbers and grasping magnitudes.
P2860
Q28076126-B4E73E1D-FE2F-4894-A669-458F2A87AD2AQ30355392-68CAF12B-0DC7-4F64-9CA5-00FD59F6E6CBQ30473265-0E2751F3-7379-41F8-B7D9-9D1F399B317BQ34038336-AA65D66C-9CE9-40C6-BE5F-EC9B02558513Q34268335-9309EBB9-8703-48B7-811B-580C67BFB7B2Q34972924-434A68F1-65C5-4E05-A363-227D40984F68Q36004514-DA4A52B6-C2D7-4066-A350-5EE334561ADEQ36031208-01B531FB-5555-4C8A-ADF7-83C765FDD0BFQ36208835-C7630B40-CC52-4A16-8039-16228459DDF9Q36610193-2531BC31-2CD7-473A-8EBB-B08601EEEE6CQ36956265-554C3B4C-5A11-49C4-B634-2790408B8FF7Q37324008-00A8F21A-9C9C-4F67-ADC2-E5A3C815B559Q37689462-2F422BF1-290D-40E9-AD35-41A1D487FD02Q38377981-E511EFE2-F174-4E5F-9F45-A490C5369FC1Q38383875-CC34473E-E822-4F64-A9B0-430B83FF183FQ38386330-907BD89D-95F3-4213-B229-AF1586C4573EQ38387296-9DB4231D-37E0-4D1A-BDD5-23E9B8F7416EQ38421233-695AE738-82FE-4474-A8A5-03B1C83E65F2Q38450388-EB876930-19DE-473D-BA39-7A96DEB02590Q38459040-0D319E0C-4BBF-43F8-A670-168F928A8BFDQ38476684-9D847B63-D8C4-4957-8A6F-FAAB21BD1D10Q38562139-A10AEC59-CD4D-456F-BE41-D59C81BC071DQ38789970-601DEC4B-3557-4A7D-928A-08EFA1F63546Q38836516-4A49D30E-F15C-4E66-B1B6-F5D77FD0FC75Q39207923-753A6E77-DD03-4FCB-8F34-7E44A68D4125Q39951770-083764B8-7613-498D-A838-D5F8A95F39AEQ41479126-7EC1F03F-BA12-4C00-BC64-A20D5BAA79DBQ41913864-392455A3-548D-41C5-B5F2-8DFE5536947FQ42838619-8052AF66-8D85-482E-A414-93659B81BC98Q42925773-5B43CAE2-F635-4424-A013-C21E37C56148Q43092218-579CF6EE-1F19-49D0-9531-46BDADCDBD01Q43890115-1487D022-B90E-4EC2-93CD-4FF69FF2ABC1Q44069886-8CFF90C8-8941-484A-99AB-9A72EB9B9A2CQ47105363-13875A73-DB84-4EE8-BA6B-F68C973D04D6Q47221203-71687817-23F2-42DA-97BE-FB53713EFC6CQ47335083-96483040-B0DB-4A2E-98DB-8F7AD37F8164Q47346540-D21BB0D3-F0B5-40A7-8178-45FB24ED124AQ48284722-CECDF922-BA3A-492B-9FC5-3B56D4FCFED9Q48402319-68E7DBDC-321B-4DDE-826C-4B17F095FA5AQ48855419-E130D4F4-4707-4D94-8518-A5459B286BAD
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
A model of exact small-number representation.
@en
type
label
A model of exact small-number representation.
@en
prefLabel
A model of exact small-number representation.
@en
P2093
P2860
P356
P1476
A model of exact small-number representation.
@en
P2093
Michaël Stevens
Tom Verguts
P2860
P2888
P356
10.3758/BF03196349
P577
2005-02-01T00:00:00Z
P5875
P6179
1018364461