Statistically Induced Chunking Recall: A Memory‐Based Approach to Statistical Learning

Isbilen, Erin S.; McCauley, Stewart M.; Kidd, Evan; Christiansen, Morten H.

doi:10.1111/cogs.12848

Cited by 43 publications

(90 citation statements)

References 102 publications

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“…In the memory literature, serial recall of lists of items (words, letters, digits) have been used extensively to measure the effect of chunking on memory abilities (e.g., Jones & Macken, 2015). Variations of this task have been used to test general statistical learning (e.g., Isbilen et al., 2017, in press)—the ability to learn distributional patterns of co‐occurrence in language and other aspects of cognition (see Frost, Armstrong, & Christiansen, 2019; Rebuschat & Williams, 2012, for reviews). Under the guise of “sentence imitation,” recall of whole sentences has long been used to assess L1 acquisition in children (e.g., Frizelle, O'Neill, & Bishop, 2017; Slobin & Welsh, 1967).…”

Section: Measuring Second Language Proficiencymentioning

confidence: 99%

“…From this perspective, Christiansen and Chater argue that rapid chunking of language input is central to language proficiency. Though there has been some work using chunking to measure general skill learning (e.g., Isbilen, McCauley, Kidd, & Christiansen, 2017, in press—see Christiansen, 2019; Gobet et al., 2001, for reviews), chunking is mostly ignored in L2‐learning measures.…”

Section: Introductionmentioning

confidence: 99%

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Using Utterance Recall to Assess Second Language Proficiency

2020

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Obtaining quick and reliable evidence regarding the proficiency of learners is a perennial issue in second language (L2) learning research. In this study, we examined naturalistic utterance recall as a measure of L2 learning proficiency that can be easily extracted from videos and automatically scored using the video's captions. In our recall task, learners listen to audio clips and write down as much of the utterance as they can remember. We evaluated this naturalistic recall task with a sample of English native speakers who are learning Spanish at beginner to advanced levels, as well as Spanish native speakers. The results suggest that our recall measure is a better predictor of a learner's ability to translate heard sentences than a shortened version of a standardized listening multiple‐choice comprehension test. Our findings suggest naturalistic utterance recall can offer an accurate and efficient method for predicting foreign language proficiency.

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Section: Measuring Second Language Proficiencymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Using Utterance Recall to Assess Second Language Proficiency

2020

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“…Although SL is generally thought of as an implicit process, not available to conscious reflection, its results are usually tested by explicit forced-choice decisions. Recently, SL has also been shown to affect the accuracy of serial short-term memory tasks: better serial recall was seen for sequences that had first been included in an SL task (Isbilen et al, 2020). As SL has been shown to correlate with developmental language measures (for a review, see Siegelman, 2020) and has been suggested to play a role in DLD (Mainela-Arnold and Evans, 2014), possible modality-specific differences in the learnability of regularities in temporal SL sequences could also affect STM for serial order.…”

Section: Introductionmentioning

confidence: 99%

Short-Term Memory for Serial Order Moderates Aspects of Language Acquisition in Children With Developmental Language Disorder: Findings From the HelSLI Study

et al. 2021

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Previous studies of verbal short-term memory (STM) indicate that STM for serial order may be linked to language development and developmental language disorder (DLD). To clarify whether a domain-general mechanism is impaired in DLD, we studied the relations between age, non-verbal serial STM, and language competence (expressive language, receptive language, and language reasoning). We hypothesized that non-verbal serial STM differences between groups of children with DLD and typically developing (TD) children are linked to their language acquisition differences. Fifty-one children with DLD and sixty-six TD children participated as part of the HelSLI project in this cross-sectional study. The children were 4–6-year-old monolingual native Finnish speakers. They completed several tests of language and cognitive functioning, as well as new game-like tests of visual and auditory non-verbal serial STM. We used regression analyses to examine how serial STM moderates the effect of age on language. A non-verbal composite measure of serial visual and auditory STM moderated cross-sectional development of receptive language in the children with DLD. This moderation was not observed in the TD children. However, we found more rapid cross-sectional development of non-verbal serial STM in the TD children than in the children with DLD. The results suggest that children with DLD may be more likely to have compromised general serial STM processing and that superior non-verbal serial STM may be associated with better language acquisition in children with DLD.

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“…This work investigated the degree to which perceptual fluency influences statistical learning, and to what extent perceptual fluency reflects stimulus familiarity vs complexity. Recognising that SL relies on basic memory processes (Frank et al, 2010;Frost et al, 2019;Isbilen et al, 2020), we hypothesised that participants would learn the same statistical distribution better when they found items to be easier to perceptually distinguish, parse, and remember. This hypothesis was uniformly supported across three experiments.…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, in the case of Siegelman et al (2018), they suggest that prior learning constitutes an important yet understudied component of the process. As a result, statistical learning has more recently been conceptualised as a multi-component process (Arciuli, 2017;Frost et al, 2019;Siegelman, Bogaerts, & Frost, 2017), grounded in basic perception and cognition ( (Frank, Goldwater, Griffiths, & Tenenbaum, 2010;Christiansen, 2019;Isbilen et al, 2020). However, the specifics of those components are far from clear, as Siegelman et al (2017) note: "in contrast with general intelligence ... the dimensions of SL as an individual ability are yet to be empirically established."…”

Section: Introductionmentioning

confidence: 99%

What drives individual differences in statistical learning? The role of perceptual fluency and familiarity

Perfors¹,

Kidd²

2020

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Humans have the ability to learn surprisingly complicated statistical information in avariety of modalities and situations, often based on relatively little input. These statistical learning (SL) skills appear to underlie many kinds of learning, but despite their ubiquity, we still do not fully understand precisely what SL is and what individual differences on SL tasks reflect. Here we present experimental work suggesting that at least some individual differences arise from variation in perceptual fluency — the ability to rapidly or efficiently code and remember the stimuli that statistical learning occurs over – and that perceptual fluency is driven at least in part by stimulus familiarity: performance on a standard SL task varies substantially within the same (visual) modality as a function of whether the stimuli involved are familiar or not, independent of stimulus complexity. Moreover, we find that test-retest correlations of performance in a statistical learning task using stimuli of the same level of familiarity (but distinct items) are stronger than correlations across the same task with stimuli of different levels of familiarity. Finally, we demonstrate that statistical learning performance is predicted by an independent measure of stimulus-specific perceptual fluency that contains no statistical learning component at all. Our results suggest that a key component of statistical learning performance may be related to stimulus-specific perceptual processing and familiarity.

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Statistically Induced Chunking Recall: A Memory‐Based Approach to Statistical Learning

Abstract: This is the author manuscript accepted for publication and has undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process, which may lead to differences between this version and the Version of Record. Please cite this article as

Cited by 43 publications

References 102 publications

Using Utterance Recall to Assess Second Language Proficiency

Using Utterance Recall to Assess Second Language Proficiency

Short-Term Memory for Serial Order Moderates Aspects of Language Acquisition in Children With Developmental Language Disorder: Findings From the HelSLI Study

What drives individual differences in statistical learning? The role of perceptual fluency and familiarity

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