about
Subtle increases in interletter spacing facilitate the encoding of words during normal readingThe Influence of Orthographic Neighborhood Density and Word Frequency on Visual Word Recognition: Insights from RT Distributional AnalysesStimulus rate increases lateralisation in linguistic and non-linguistic tasks measured by functional transcranial Doppler sonography.The Nature of Verbal Short-Term Impairment in Dyslexia: The Importance of Serial OrderSpoken word recognition without a TRACE.The influence of contextual diversity on eye movements in reading.On the time-course of adjacent and non-adjacent transposed-letter priming.Letter position coding across modalities: the case of Braille readersA dual-route approach to orthographic processingTracking the emergence of the consonant bias in visual-word recognition: evidence with developing readers.Responding to nonwords in the lexical decision task: Insights from the English Lexicon ProjectContext-dependent similarity effects in letter recognition.The "electrophysiological sandwich": a method for amplifying ERP priming effects.Contextual diversity facilitates learning new words in the classroom.ERP correlates of letter identity and letter position are modulated by lexical frequencyAuthor’s response: A universal approach to modeling visual word recognition and reading: not only possible, but also inevitableThe neurobiology of rhyme judgment by deaf and hearing adults: an ERP study.Towards a universal model of reading.Evidence for letter-specific position coding mechanisms.Is the masked priming same-different task a pure measure of prelexical processing?Early access to abstract representations in developing readers: evidence from masked priming.Character Decomposition and Transposition of Chinese Compound Words in the Right and Left Visual Fields.The flexibility of letter-position flexibility: evidence from eye movements in reading Hebrew.Character Decomposition and Transposition Processes of Chinese Compound Words in Rapid Serial Visual Presentation.Toward a scalable holographic word-form representation.Early morphological decomposition during visual word recognition: evidence from masked transposed-letter priming.Orthographic similarity: the case of "reversed anagrams".Are all Semitic languages immune to letter transpositions? The case of Maltese.Meaning is in the beholder's eye: morpho-semantic effects in masked priming.A diffusion model account of masked versus unmasked priming: are they qualitatively different?Models of visual word recognition.Stochastic accumulation of feature information in perception and memory.Evidence for Separate Contributions of High and Low Spatial Frequencies during Visual Word Recognition.The ERP signature of the contextual diversity effect in visual word recognition.Why Saturday could be both green and red in synesthesia.Do handwritten words magnify lexical effects in visual word recognition?Masked suffix priming and morpheme positional constraints.Semantic transparency in free stems: The effect of Orthography-Semantics Consistency on word recognition.On the advantages of word frequency and contextual diversity measures extracted from subtitles: The case of Portuguese.An RT distribution analysis of relatedness proportion effects in lexical decision and semantic categorization reveals different mechanisms.
P2860
Q21133935-02491276-71AE-44ED-8962-D7FF89C2E10FQ27304904-33592024-37D8-4D42-95D7-987F120BA082Q27305029-A5FC83D1-8E8F-4098-B140-6C650BD624B8Q28074721-ADDAF85E-51BD-4C32-96C7-A060FAB5A7DFQ30449101-517021E2-353C-42BE-A6DF-59C5C9596588Q33692999-3BB5A992-5657-47A7-B29A-A7A853223EFBQ34429064-35477150-2A37-4B24-9D45-9CEA7507F96BQ34446859-F7EE5E87-301F-4000-921C-2E543F86341FQ35033369-0481EB94-1163-4824-A53E-76D7F598C773Q35093678-528765D1-C3A0-4FF4-9F02-09FD3C701C55Q35498596-E20C8501-65C9-4901-BC9A-7EC34F41AF2EQ36080046-50D77AE2-9AE6-448B-9600-4AFF2943EA62Q36103601-E63E654B-A6B8-41BE-BE1D-D27E3118DFD5Q36393969-C2DBEED9-1A3D-4668-9244-A5A4F06F5117Q36728802-3C5C6759-AE5F-4B66-8F73-E23EB4980EA7Q36872060-466E7C5D-046A-41BA-A937-9A5CACB4F1D8Q36916555-D3D50B1B-89D7-4032-8FA1-7A72E3C934A4Q36916671-C61F4533-12E9-4B84-A3F2-CC86C2BE97B2Q36976889-ECE81FAC-868F-475D-AF7D-9D94AFBE16DAQ37181844-897E80C9-A4D7-4E79-BF2B-5CEDDF97BAECQ37321770-95646AE2-CB92-4C85-8A8D-3498FB78A867Q37398269-7C8B2D97-BF20-4CEB-90E2-65874104C362Q37666415-5C78D610-BC40-4E8B-B84D-94B95487D795Q37731018-19CF65F1-F8BC-4961-BCB3-623473CB550BQ37893997-006583B9-E059-40D8-B467-23616029E209Q37895510-B150237D-1D8F-4609-AFC8-8071FDB339F5Q37991251-13CEE905-C953-4A3F-9C8A-B7F5B382FB4AQ38016401-20D79C44-D198-4704-BB1C-9F869B825BDCQ38068361-456A0803-748D-4D4B-B1E6-A323110CF17DQ38104417-DCC21D69-1EAC-4799-B6D4-A0AFA11709FDQ38135066-41031CD6-32FE-4B32-8948-447C53C053BEQ38214604-26060274-5CB8-492B-BF54-4D222AD16F57Q38374317-0A76FFCE-1F9B-47DA-B15D-DAAE795E8BAEQ38382870-B340688A-8629-4F58-BFCE-F9098F92F89AQ38386059-EF99A219-8154-4693-BD33-72CFE945D6BBQ38404507-D34B70D2-77E4-4910-91EE-4EAA0860731FQ38415083-C7B3699C-E3A5-4B76-B6DB-3A6E645CFF0CQ38422986-F38D0A17-83CD-47A8-9917-2B66A96BDB69Q38423118-C1A01158-E1A7-48C4-A181-A77EDFDECBC1Q38426393-1CCBBD8A-0A0F-47C9-B849-902640E741FA
P2860
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
The spatial coding model of visual word identification.
@en
The spatial coding model of visual word identification.
@nl
type
label
The spatial coding model of visual word identification.
@en
The spatial coding model of visual word identification.
@nl
prefLabel
The spatial coding model of visual word identification.
@en
The spatial coding model of visual word identification.
@nl
P356
P1433
P1476
The spatial coding model of visual word identification.
@en
P304
P356
10.1037/A0019738
P577
2010-07-01T00:00:00Z