2001
DOI: 10.3758/bf03196158
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How the brain encodes the order of letters in a printed word: The SERIOL model and selective literature review

Abstract: This paper describes a novel theoretical framework of how the position of a letter within a string is encoded, the SERIOL model (sequential encoding regulated by inputs to oscillations within letter units). Letter order is represented by a temporal activation pattern across letter units, as is consistent with current theories of information coding based on the precise timing of neural spikes. The framework specifies how this pattern is invoked via an activation gradient that interacts with subthreshold oscilla… Show more

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Cited by 523 publications
(704 citation statements)
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References 76 publications
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“…Our data showed a robust TLE in Position 12 for single fixation and gaze durations, and in Position 23 for all dependent variables, but there was no TLE in Position 13. First, this pattern of effects seemed consistent with use of bigrams as the unit for lexical access, thus supporting contextual coding models such as the SERIOL (Whitney, 2001) and Open Bigram models (Grainger & van Heuven, 2003; see also . These models differ, however, in their proposed mechanism-the Open Bigram model implements a contextual mechanism for bigram encoding, while the SERIOL model assumes a spatial coding mechanism.…”
Section: Transposed Letter Effects In Parafoveal Previewsupporting
confidence: 72%
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“…Our data showed a robust TLE in Position 12 for single fixation and gaze durations, and in Position 23 for all dependent variables, but there was no TLE in Position 13. First, this pattern of effects seemed consistent with use of bigrams as the unit for lexical access, thus supporting contextual coding models such as the SERIOL (Whitney, 2001) and Open Bigram models (Grainger & van Heuven, 2003; see also . These models differ, however, in their proposed mechanism-the Open Bigram model implements a contextual mechanism for bigram encoding, while the SERIOL model assumes a spatial coding mechanism.…”
Section: Transposed Letter Effects In Parafoveal Previewsupporting
confidence: 72%
“…Again, this indicates that letter position information was extracted flexibly from the parafovea through bigrams. Again, by extension, we might argue that this result supports contextual coding models such as the Open Bigram and SERIOL (Whitney, 2001) models. The three-way interaction was not significant in Model 2 for any of the dependent measures, indicating that TLEs on the target word were comparable in children and adults.…”
Section: Target Wordsupporting
confidence: 67%
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“…Several recent models of reading stress the Serial-order learning in dyslexia importance of the temporal alignment of the serial orthographic representations (i.e., letter position and identity) and phonological representations in reading acquisition (e.g., the SERIOL model, Whitney, 2001; the overlap model, Gomez, Ratcliff, & Perea, 2008).…”
Section: Dyslexia As a Dis-order?mentioning
confidence: 99%