Detecting spelling errors in compound and pseudocompound words.

Chamberlain, Jenna M.; Gagné, Christina L.; Spalding, Thomas L.; Lõo, Kaidi

doi:10.1037/xlm0000748

Cited by 9 publications

(16 citation statements)

References 53 publications

(89 reference statements)

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“…In fact, for semantically opaque compounds such as ladybird or windfall, these whole-word meanings differ dramatically from their compositionallyobtained meanings (for an overview on semantic transparency/opacity, see Schäfer, 2018). However, from a processing perspective, it still makes sense to immediately initiate a compositional process whenever a compound is encountered (see Chamberlain, Gagné, Spalding, & Lõo, 2019;Günther & Marelli, 2019a). Assuming that the main purpose of language is to convey meaning, language processing would be geared towards understanding the linguistic stimuli we encounter (Libben, 2014): Before the whole-word lexical entry has been accessed, one cannot know whether the compound is familiar or not -and thus, whether there even is such an entry (see El-Bialy, Gagné, & Spalding, 2013).…”

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confidence: 99%

Semantic transparency is not invisibility: A computational model of perceptually-grounded conceptual combination in word processing

Günther

Petilli

Marelli

2020

Journal of Memory and Language

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Note: This is the author's preprint version of the article (date: 28. 01. 2020). The final article is accepted for publication in the Journal of Memory and Language. Previous studies found that an automatic meaning-composition process affects the processing of morphologically complex words, and related this operation to conceptual combination. However, research on embodied cognition demonstrates that concepts are more than just lexical meanings, rather being also grounded in perceptual experience. Therefore, perception-based information should also be involved in mental operations on concepts, such as conceptual combination. Consequently, we should expect to find perceptual effects in the processing of morphologically complex words. In order to investigate this hypothesis, we present the first fullyimplemented and data-driven model of perception-based (more specifically, vision-based) conceptual combination, and use the predictions of such a model to investigate processing times for compound words in four large-scale behavioral experiments employing three paradigms (naming, lexical decision, and timed sensibility judgments). We observe facilitatory effects of vision-based compositionality in all three paradigms, over and above a strong language-based (lexical and semantic) baseline, thus demonstrating for the first time perceptually grounded effects at the sub-lexical level. This suggests that perceptually-grounded information is not only utilized according to specific task demands but rather automatically activated when available.

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confidence: 99%

Semantic transparency is not invisibility: A computational model of perceptually-grounded conceptual combination in word processing

Günther

Petilli

Marelli

2020

Journal of Memory and Language

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“…These findings held even after controlling for semantic, orthographic, phonological, and syllabic factors. Furthermore, Chamberlain et al (2020) found that compounds and pseudocompounds exhibited different effects in a spelling error detection task; compounds showed a processing advantage relative to their matched controls whereas pseudocompounds did not show this facilitation. Also, letter transpositions at the morpheme boundary removed the processing advantage for compounds relative to their controls, but created a processing disadvantage for pseudocompounds (e.g., patnry was slower than its matched control), suggesting that there is some advantage to the presence of morphemes which is removed by the transposition of the boundary letters.…”

Section: Methodsmentioning

confidence: 99%

Carport and carpet: Effects of compound and pseudocompound word structures on typing.

Gagné,

Spalding,

Taikh

2023

Journal of Experimental Psychology: Learning, Memory, and Cogni

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Typing slows at the middle of the word. The exact nature of the slowdown is still disputed. Research on attentional and motoric effects in typing suggests that the slowdown is purely a function of chunking of letters in creating the motor output; this approach posits no further influence of linguistic information during output. Research from a psycholinguistic perspective does posit lexical and sublexical effects during output and explains the midword slowing as a function of slowdowns at the boundaries of sublexical units. Across four experiments, using three different typing tasks, we investigated the typing of compound (schoolteacher) and pseudocompound (carpet) words. Typing at the midword region is sensitive to the morphological structure of the word and to linguistic properties of the word and its (pseudo)constituents (e.g., linguistic information about school and teacher affects schoolteacher, and car and pet affects carpet). These findings suggest that typing compounds involves a hierarchical plan consisting of two separate motor plans for each constituent executed sequentially such that the output of letters is sensitive to the number of letters within that plan, the position of the sequence in the hierarchy (e.g., first vs. second constituent), and the morphemic structure of the tobe-typed word. Surprisingly, given that pseudocompound lexical representations should not include the pseudoconstituents and given that our tasks in the first three experiments demand full access to the lexical representation before typing, pseudocompound typing is also sensitive to the pseudoconstituent characteristics, suggesting that, during typing, the system attempts to build a compound-like structure.

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“…In contrast to opaque compounds, exposure to pseudocompounds resulted in significant inhibition of the target car. These findings suggest that the processing system establishes a morphological structure for all compounds, including opaque compounds and even pseudocompounds; however, this may lead to a processing cost when the established structure is incompatible with the true morphemic structure of the word (see also Chamberlain et al, 2020).…”

Section: Semantic Transparencymentioning

confidence: 99%

The role of semantic transparency in the processing of spoken compound words.

Creemers¹,

Embick²

2022

Journal of Experimental Psychology: Learning, Memory, and Cogni

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The question of whether lexical decomposition is driven by semantic transparency in the lexical processing of morphologically complex words, such as compounds, remains controversial. Prior research on compound processing has predominantly examined visual processing. Focusing instead on spoken word word recognition, the present study examined the processing of auditorily presented English compounds that were semantically transparent (e.g., farmyard) or partially opaque with an opaque head (e.g., airline) or opaque modifier (e.g., pothole). Three auditory primed lexical decision experiments were run to examine to what extent constituent priming effects are affected by the semantic transparency of a compound and whether semantic transparency affects the processing of heads and modifiers equally. The results showed priming effects for both modifiers and heads regardless of their semantic transparency, indicating that individual constituents are accessed in transparent as well as opaque compounds. In addition, the results showed smaller priming effects for semantically opaque heads compared with matched transparent compounds with the same head. These findings suggest that semantically opaque heads induce an increased processing cost, which may result from the need to suppress the meaning of the head in favor of the meaning of the opaque compound.

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Detecting spelling errors in compound and pseudocompound words.

Cited by 9 publications

References 53 publications

Semantic transparency is not invisibility: A computational model of perceptually-grounded conceptual combination in word processing

Semantic transparency is not invisibility: A computational model of perceptually-grounded conceptual combination in word processing

Carport and carpet: Effects of compound and pseudocompound word structures on typing.

The role of semantic transparency in the processing of spoken compound words.

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