Bootstrapping in a language of thought: A formal model of numerical concept learning

Piantadosi, Steven T.; Tenenbaum, Joshua B.; Goodman, Noah D.

doi:10.1016/j.cognition.2011.11.005

Cited by 156 publications

(183 citation statements)

References 52 publications

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“…Specifically, on the assumption that delays between subset knower level stages are driven by the problem of mapping numerals to set sizes, it remains unknown why this 6 Consistent with this, computational models of the counting stages suggest that, to the extent that learning the cardinal principle is a process of inference to the best explanation where the successor principle is contained in a child's initial hypothesis space, children may indeed skip steps given sufficient robust training with, e.g., one and two, but not three or four (Piantadosi, et al, 2012). mapping problem might be so difficult.…”

Section: Discussionmentioning

confidence: 94%

“…Also, the stage-like nature of children's learning has been corroborated by meta-analyses and computational models (Lee & Sarnecka, 2010Sarnecka & Lee, 2009), which can model the delays between stages using a small number of parameters (Piantadosi, et al, 2012).…”

Section: Bilingual Number Word Learningmentioning

confidence: 99%

“…Up until this point, children are generally referred to as "subset-knowers" since they have only acquired the meanings for a subset of their number words. However, at the next stage children appear to recognize that the counting procedure can be used to enumerate sets and, more specifically, that the last word in a count routine labels the cardinality of the entire set (for discussion of knower levels, see Wynn, 1990Wynn, , 1992Le Corre et al, 2006;Lee & Sarnecka, 2011;Le Corre & Carey, 2007;Piantadosi, Tenenbaum, & Goodman, 2012;Sarnecka & Carey, 2008;Davidson, Eng, & Barner, 2012). At this stage, children are generally referred to as Cardinal Principle knowers ("CP-knowers").…”

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confidence: 99%

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Why is number word learning hard? Evidence from bilingual learners

Wagner

Kimura

Cheung

et al. 2015

Cognitive Psychology

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Section: Discussionmentioning

confidence: 94%

Section: Bilingual Number Word Learningmentioning

confidence: 99%

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confidence: 99%

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Why is number word learning hard? Evidence from bilingual learners

Wagner

Kimura

Cheung

et al. 2015

Cognitive Psychology

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“…According to some previous studies, children have knowledge of the successor function early in childhood -either innately (Leslie, Gallistel, & Gelman, 2007) or when they become Cardinal Principle knowers (CPknowers) at around 3½ to 4 years of age (Carey, 2004(Carey, , 2009Piantadosi, Tenenbaum, & Goodman, 2012;Sarnecka & Carey, 2008). Other studies have suggested that this knowledge emerges sometime after children learn the cardinal principle (Davidson, Eng, & Barner, 2012), providing evidence that children only have item-based knowledge of the successor function when they become CP-knowers (see also Wagner, et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

To infinity and beyond: Children generalize the successor function to all possible numbers years after learning to count

Ansari¹,

Rubenson²,

Barner³

2016

Preprint

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Recent accounts of number word learning posit that when children learn toaccurately count sets (i.e., become "cardinal principle" or "CP" knowers),they have a conceptual insight about how the count list implements thesuccessor function - i.e., that every natural number *n *has a successordefined as *n+1* (Carey, 2004, 2009; Sarnecka & Carey, 2008). However,recent studies suggest that knowledge of the successor function emergessometime after children learn to accurately count, though it remainsunknown when this occurs, and what causes this developmental transition. Wetested knowledge of the successor function in 100 children aged 4 through 7and asked how age and counting ability are related to: (1) children'sability to infer the successors of all numbers in their count list, and (2)knowledge that *all *numbers have a successor. We found that children donot acquire these two facets of the successor function until they are about5.5 or 6 years of age - roughly 2 years after they learn to accuratelycount sets and become CP-knowers. These findings show that acquisition ofthe successor function is highly protracted, providing the strongestevidence yet that it cannot drive the cardinal principle induction. Wesuggest that counting experience, as well as knowledge of recursivecounting structures, may instead drive the learning of the successorfunction.

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“…The dominant view in developmental psychology as reviewed by Rips et al (2008), however, is that the natural number system is constructed out of other number-related concepts in the course of children's cognitive development (see Carey 2009;Feigenson et al 2004;Le Corre et al 2006;Piantadosi et al 2012;Sarnecka to appear;and Wynn 1992, among many others). The major difficulty for the nativist position is the fact that acquisition of number words (or numerals) by children takes a long time, completed only at the age of three and a half to four years.…”

Section: Introductionmentioning

confidence: 99%

Natural language and set-theoretic conception of natural number

Watanabe

2017

Acta Linguistica Academica

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This article presents a new theory of simplex numerals that incorporates a slight revision of Chomsky's (2008) set-theoretic conception of natural number, which assumes that the notion of natural number is innate. The new theory makes it possible to account for the behavior of numerals in counting as well as the developmental stages that children go through in learning numerals. The key idea is that set-theoretic objects corresponding to natural number notions are subject to operations that apply when a syntactic object is converted to phonological form. These operations provide a crucial link that connects the meaning of a numeral with the count list consisting of numerals. A notable feature of the proposed analysis is that the Cardinal Principle is derived by recruiting linguistic computation and therefore is no longer stipulated as such.

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Bootstrapping in a language of thought: A formal model of numerical concept learning

Cited by 156 publications

References 52 publications

Why is number word learning hard? Evidence from bilingual learners

Why is number word learning hard? Evidence from bilingual learners

To infinity and beyond: Children generalize the successor function to all possible numbers years after learning to count

Natural language and set-theoretic conception of natural number

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