Bootstrapping in a language of thought: A formal model of conceptual change in number word learning

In acquiring number words, children exhibit a qualitative leap in which they transition from understanding a few number words, to possessing a recursive system of interrelated numerical concepts. We present a computational framework for understanding this inductive leap as the consequence of statistical inference over a sufficiently powerful representational system. We provide an implemented model that is powerful enough to learn number word meanings and other related conceptual systems from naturalistic data. The model shows that bootstrapping can be made computationally and philosophically well-founded as a theory of number learning. Our approach demonstrates how learners may combine core cognitive operations to build sophisticated representations during the course of development, and how this process explains observed developmental patterns in number word learning.

[1]  Johanna D. Moore,et al.  The Tenth Annual Conference of the Cognitive Science Society , 1988 .

[2]  S. Carey The Origin of Concepts , 2000 .

[3]  C. Gallistel,et al.  The Child's Understanding of Number , 1979 .

[4]  J. Tenenbaum A Bayesian framework for concept learning , 1999 .

[5]  Michael C. Frank,et al.  Number as a cognitive technology: Evidence from Pirahã language and cognition , 2008, Cognition.

[6]  Noam Chomsky,et al.  The faculty of language: what is it, who has it, and how did it evolve? , 2002, Science.

[7]  Luke S. Zettlemoyer,et al.  Online Learning of Relaxed CCG Grammars for Parsing to Logical Form , 2007, EMNLP.

[8]  Michael D. Lee,et al.  A Model of Knower-Level Behavior in Number Concept Development , 2009, Cogn. Sci..

[9]  M. Shatz Language in Mind: Advances in the Study of Language and Thought (review) , 2006 .

[10]  Karen Wynn,et al.  Children's understanding of counting , 1990, Cognition.

[11]  李幼升,et al.  Ph , 1989 .

[12]  K. Wynn Children's acquisition of the number words and the counting system , 1992, Cognitive Psychology.

[13]  Eric Margolis,et al.  How to learn the natural numbers: Inductive inference and the acquisition of number concepts , 2008, Cognition.

[14]  Arthur J. Baroody,et al.  Children's Difficulties in Subtraction: Some Causes and Questions. , 1984 .

[15]  Susan Goldin-Meadow,et al.  What makes us smart? Core knowledge and natural language , 2003 .

[16]  Jesse Snedeker,et al.  What Exactly do Numbers Mean? , 2013, Language learning and development : the official journal of the Society for Language Development.

[17]  B. MacWhinney The CHILDES project: tools for analyzing talk , 1992 .

[18]  Karen C. Fuson,et al.  More Complexities in Subtraction. , 1984 .

[19]  Janellen Huttenlocher,et al.  What counts in the development of young children's number knowledge? , 2010, Developmental psychology.

[20]  Michael D. Lee,et al.  Number-knower levels in young children: Insights from Bayesian modeling , 2011, Cognition.

[21]  Justin Halberda,et al.  Acquisition of English Number Marking: The Singular-Plural Distinction , 2006 .

[22]  S. Dehaene,et al.  Cross-linguistic regularities in the frequency of number words , 1992, Cognition.

[23]  C. R. Gallistel,et al.  Commentary on Le Corre & Carey , 2007, Cognition.

[24]  Joshua B. Tenenbaum,et al.  Beyond Boolean logic: exploring representation languages for learning complex concepts , 2010 .

[25]  Elizabeth S. Spelke,et al.  Preschool children master the logic of number word meanings , 2006, Cognition.

[26]  Irene Heim,et al.  Semantics in generative grammar , 1998 .

[27]  Elizabeth S Spelke,et al.  The development of language and abstract concepts: the case of natural number. , 2008, Journal of experimental psychology. General.

[28]  Lance J. Rips,et al.  Do children learn the integers by induction? , 2008, Cognition.

[29]  David Marr,et al.  VISION A Computational Investigation into the Human Representation and Processing of Visual Information , 2009 .

[30]  D. McDermott LANGUAGE OF THOUGHT , 2012 .

[31]  Rochel Gelman,et al.  Language and Conceptual Development series Number and language : how are they related ? , 2004 .

[32]  Susan Carey,et al.  Acquiring a Single New Word , 1978 .

[33]  E. Spelke,et al.  Language and Conceptual Development series Core systems of number , 2004 .

[34]  S. Carey,et al.  How counting represents number: What children must learn and when they learn it , 2008, Cognition.

[35]  D. Barner,et al.  Inference and exact numerical representation in early language development , 2010, Cognitive Psychology.

[36]  C. Gallistel,et al.  Preverbal and verbal counting and computation , 1992, Cognition.

[37]  Rochel Gelman,et al.  A Rational-Constructivist Account of Early Learning About Numbers and Objects , 1993 .

[38]  E. Markman,et al.  Word learning in children: an examination of fast mapping. , 1987, Child development.

[39]  Barbara W Sarnecka,et al.  Levels of number knowledge during early childhood. , 2009, Journal of experimental child psychology.

[40]  Noah D. Goodman,et al.  A Bayesian Model of the Acquisition of Compositional Semantics , 2008 .

[41]  C. Gallistel,et al.  The generative basis of natural number concepts , 2008, Trends in Cognitive Sciences.

[42]  Michael C. Frank,et al.  A Bayesian Framework for Cross-Situational Word-Learning , 2007, NIPS.

[43]  S. Gelman,et al.  Six does not just mean a lot: preschoolers see number words as specific , 2004, Cognition.

[44]  Eysenck Keane Cognitive Psychology, 6 , 2012 .

[45]  David Barner,et al.  Finding one’s meaning: A test of the relation between quantifiers and integers in language development , 2009, Cognitive Psychology.

[46]  Rochel Gelman,et al.  Early understandings of numbers: paths or barriers to the construction of new understandings? , 1998 .

[47]  Mark Steedman,et al.  The syntactic process , 2004, Language, speech, and communication.

[48]  David Barner,et al.  On the relation between the acquisition of singular-plural morpho-syntax and the conceptual distinction between one and more than one. , 2007, Developmental science.

[49]  Ellen M. Markman,et al.  Word Learning in Children: An Examination of Fast Mapping. , 1987 .

[50]  S. Dehaene,et al.  The Number Sense: How the Mind Creates Mathematics. , 1998 .

[51]  S. Laurence,et al.  Radical concept nativism , 2002, Cognition.

[52]  N. Chater,et al.  Proceedings of the fourteenth annual conference of the cognitive science society , 1992 .

[53]  S. Dehaene,et al.  Exact and Approximate Arithmetic in an Amazonian Indigene Group , 2004, Science.

[54]  Thomas L. Griffiths,et al.  A Rational Analysis of Rule-Based Concept Learning , 2008, Cogn. Sci..

[55]  A. Church An Unsolvable Problem of Elementary Number Theory , 1936 .

[56]  Noah D. Goodman,et al.  Learning a theory of causality. , 2011, Psychological review.

[57]  D. Madigan,et al.  Model Selection and Accounting for Model Uncertainty in Graphical Models Using Occam's Window , 1994 .

[58]  Lance J. Rips,et al.  Giving the boot to the bootstrap: How not to learn the natural numbers , 2006, Cognition.

[59]  Rochel Gelman,et al.  Numerical Reasoning in Young Children: The Ordering Principle. , 1977 .

[60]  Luke S. Zettlemoyer,et al.  Learning to Map Sentences to Logical Form: Structured Classification with Probabilistic Categorial Grammars , 2005, UAI.

[61]  P. Gordon Numerical Cognition Without Words: Evidence from Amazonia , 2004, Science.

[62]  K. Fuson Children's Counting and Concepts of Number , 1987 .

[63]  Yarden Katz,et al.  Modeling Semantic Cognition as Logical Dimensionality Reduction , 2008 .

[64]  J. Fodor,et al.  Concepts: Where Cognitive Science Went Wrong , 1998 .

[65]  Patrice Martau Hartnett The development of mathematical insight: From one, two, three to infinity , 1991 .

[66]  A. Papafragou,et al.  Scalar implicatures: experiments at the semantics–pragmatics interface , 2003, Cognition.

[67]  Noah D. Goodman,et al.  Theory learning as stochastic search in the language of thought , 2012 .

[68]  Adrian E. Raftery,et al.  Bayesian model averaging: development of an improved multi-class, gene selection and classification tool for microarray data , 2005, Bioinform..

[69]  P. Bloom,et al.  Linguistic cues in the acquisition of number words , 1997, Journal of Child Language.

[70]  Susan Carey,et al.  One, two, three, four, nothing more: An investigation of the conceptual sources of the verbal counting principles , 2007, Cognition.