1 / 138

The enigma of language learning

The enigma of language learning. After finishing high school a teenager understands about 60.000 words of her mother tongue From the age of two children learn to understand 8-10 new words per day A single example of a word is often sufficient to grasp its meaning

lorettae
Télécharger la présentation

The enigma of language learning

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The enigma of language learning • After finishing high school a teenager understands about 60.000 words of her mother tongue • From the age of two children learn to understand 8-10 new words per day • A single example of a word is often sufficient to grasp its meaning • We don’t know how this process works • My starting point: Word meanings have structures that speed up learning

  2. 1st paradigm: SymbolismThe computer as a metaphor for cognition • The brain functions as a Turing machine  • The brain is an information-processing system • The brain has a central processor and memory units • The brain works on the basis of a (symbolic) code by which all information is represented

  3. Symbolism • The Turing machine as a symbol manipulator • Information is captured in predicates (variables in a computer program) plus logical constructions • Concepts are defined in terms of necessary and sufficient conditions using basic predicates • GM(x) := F(x) &∃(y)∃(z)(C(y,x)&C(z,y)) • General problems: Where do the basic predicates come from? How can you learn the meaning of a predicate?

  4. 2nd paradigm: Connectionism Cognitive processes can be modelled in artificial neural networks Basic metaphor: Cognitive processes can be identified with the input and output activities of the neurons in the brain

  5. Connectionism • Based on (uninterpreted) inputs from receptors • Distributed representations by dynamic connection weights • Problems: What is represented in the network? • Learning is in general very slow

  6. 3rd paradigm: Spatial modelsCognition can be modelled in topological and geometrical structures • Conceptualspaces • Information is organized in spatial structures • Distancesrepresentinversesimilarity

  7. Geometry of Meaning • What is semantics? • Conceptual spaces and semantic domains • Semantics as a meeting of minds • Cognitive grounding of word classes: nouns, adjectives, verbs and prepositions • A cognitive theory of actions and events • Compositionality of meanings

  8. Geometry of Meaning • What is semantics? • Conceptual spaces and semantic domains • Semantics as a meeting of minds • Cognitive grounding of word classes: nouns, adjectives, verbs and prepositions • A cognitive theory of actions and events • Compositionality of meanings

  9. Criteria for a semantic theory • Ontological:What are meanings? • Semantic:What is the relation between communicative acts and their meanings? • Epistemological:How can meanings be learned? • Social: What is the relation between individual speakers and their communal language? • Cognitive: What is the relation between perceptual processes and meaning? What is the relation between actionprocesses and meaning?

  10. Criteria for a semantic theory • Ontological:What are meanings? • Semantic:What is the relation between communicative acts and their meanings? • Epistemological:How can meanings be learned? • Social: What is the relation between individual speakers and their communal language? • Cognitive: What is the relation between perceptual processes and meaning? What is the relation between actionprocesses and meaning?

  11. Criteria for a semantic theory • Ontological:What are meanings? • Semantic:What is the relation between communicative acts and their meanings? • Epistemological:How can meanings be learned? • Social: What is the relation between individual speakers and their communal language? • Cognitive: What is the relation between perceptual processes and meaning? What is the relation between actionprocesses and meaning?

  12. Truth-functional semantics • Realism vs conceptualism (vs nominalism) • Truth-functional semantics builds on realism • Extensional semantics

  13. Truth-functional semantics • Realism vs conceptualism • Truth-functional semantics builds on realism • Intensional semantics Meanings are truth-conditions

  14. Ontology • Realism vs conceptualism • Truth-functional semantics builds on realism • Cognitive semantics builds on conceptualism

  15. Criteria for a semantic theory • Ontological:What are meanings? • Semantic:What is the relation between communicative acts and their meanings? • Epistemological:How can meanings be learned? • Social: What is the relation between individual speakers and their communal language? • Cognitive: What is the relation between perceptual processes and meaning? What is the relation between actionprocesses and meaning?

  16. Criteria for a semantic theory • Ontological:What are meanings? • Semantic:What is the relation between communicative acts and their meanings? • Epistemological:How can meanings be learned? • Social: What is the relation between individual speakers and their communal language? • Cognitive: What is the relation between perceptual processes and meaning? What is the relation between actionprocesses and meaning?

  17. ”Meanings ain’t in the head” Putnam: Suppose you are like me and cannot tell an elm from a beech tree. We still say that the extension of 'elm' in my idiolect is the same as the extension of 'elm' in anyone else's, viz., the set of all elm trees, and that the set of all beech trees is the extension of 'beech' in both of our idiolects. Thus 'elm' in my idiolect has a different extension from 'beech' in your idiolect (as it should). Is it really credible that this difference in extension is brought about by some difference in our concepts? My concept of an elm tree is exactly the same as my concept of a beech tree (I blush to confess). (This shows that the identification of meaning 'in the sense of intension' with concept cannot be correct, by the way). ... Cut the pie any way you like, meanings just ain't in the head!

  18. Sharing mental representations results in an emergent semantics • If everybody has their own mental space, how can we then talk about a representation being the meaning of an expression? • Semantics is also a product of communication – meanings arise as a result of communicative interactions – meanings emerge in the heads • Sharing of meaning puts constraints on individual meanings • Socio-cognitive approach

  19. Semanticsas the meeting of minds Mental structures (different for different individuals) Action Meeting of minds Action

  20. ”Meanings are in the heads” Putnam: Suppose you are like me and cannot tell an elm from a beech tree. We still say that the extension of 'elm' in my idiolect is the same as the extension of 'elm' in anyone else's, viz., the set of all elm trees, and that the set of all beech trees is the extension of 'beech' in both of our idiolects. Thus 'elm' in my idiolect has a different extension from 'beech' in your idiolect (as it should). Is it really credible that this difference in extension is brought about by some difference in our concepts? My concept of an elm tree is exactly the same as my concept of a beech tree (I blush to confess). (This shows that the identification of meaning 'in the sense of intension' with concept cannot be correct, by the way). ... Cut the pie any way you like, meanings just ain't in the head!

  21. Criteria for a semantic theory • Ontological:What are meanings? • Semantic:What is the relation between communicative acts and their meanings? • Epistemological:How can meanings be learned? • Social: What is the relation between individual speakers and their communal language? • Cognitive: What is the relation between perceptual processes and meaning? What is the relation between actionprocesses and meaning?

  22. Howcanwe talk aboutwhatwesee? • The brain is multimodal – operates with different codes – vision, language, music … • How can we translate between the codes? • We are good at it, but we do not know how it works.

  23. Relations between perception and meaning • In cognitive semantics the carriers of meaning are ”image schemas” • Relates to Gestalt psychology Climb Climber

  24. Criteria for a semantic theory • Ontological:What are meanings? • Semantic:What is the relation between communicative acts and their meanings? • Epistemological:How can meanings be learned? • Social: What is the relation between individual speakers and their communal language? • Cognitive: What is the relation between perceptual processes and meaning? What is the relation between actionprocesses and meaning?

  25. Relations between action and meaning • Verbs normally express actions or results of actions • Actions are represented cognitively as force patterns

  26. Geometry of Meaning • What is semantics? • Conceptual spaces and semantic domains • Semantics as a meeting of minds • Cognitive grounding of word classes: nouns, adjectives, verbs and prepositions • A cognitive theory of actions and events • Compositionality of meanings

  27. Conceptual spaces • Consists of a number of dimensions (colour, size, shape, weight, position …) • Dimensions have topological or geometric structures

  28. Two linear quality dimensions 0 Time 0 Weight

  29. Conceptual spaces • Consists of a number of dimensions (colour, size, shape, weight, position …) • Dimensions have topological or geometric structures • Dimensions are sorted into domains • Less distance means greater similarity of meaning • Concepts are represented as convex regions of conceptual spaces

  30. The color spindle White Brightness Yellow Green Intensity Red Blue Hue Black

  31. Conceptual spaces • Consists of a number of dimensions (colour, size, shape, weight, position …) • Dimensions have topological or geometric structures • Dimensions are sorted into domains • Less distance means greater similarity of meaning • Concepts are represented as convexregions of conceptual spaces

  32. Why convexity? • Makes learning more efficient

  33. Learning from few examples

  34. Learning from few examples

  35. Why convexity? • Makes learning more efficient • Connects to prototype theory

  36. Voronoi tessellation from prototypes Cognitive economy: Once the space is given, you need only remember the prototypes – the borders can be calculated

  37. Why convexity? • Makes learning more efficient • Connects to prototype theory • Strong empirical support for colour categories (Jäger)

  38. Properties vs. concepts Properties: A convex region in a singledomain Concepts: A set ofconvex regions in a numberofdomains; togetherwith (1) prominencevaluesof the domains and (2) information abouthow the regions in different domainsarecorrelated

  39. Properties vs. concepts Properties: A convex region in a singledomain Concepts: A set ofconvex regions in a numberofdomains; togetherwith (1) prominencevaluesof the domains and (2) information abouthow the regions in different domainsarecorrelated

  40. An example of an concept: ”Apple” Domain Region Color Red-green-yellow TasteValues for sweetness, sournessetc Shape "Round" region ofshape space Nutrition Values for sugar, vitamin C, fibresetc

  41. Shape space according to Marr

  42. Sharing semantic domains • Why is easy to explain to a four-year-old the meaning of the colour terms ”chartreuse” and ”mauve” • … but difficult to explain the monetary terms ”inflation” and ”mortgage”? • Language understanding depends on sharing semantic domains

  43. Emotional domain

  44. Visuo-spatial domain • Egocentric space • Allocentric space

  45. Action space • Action identification depend on the forces that are exerted • Represented as patterns of force vectors

  46. Object category domain • Domains for properties of objects • Size, shape, weight, colour, taste … • Properties are convex regions of domains • Categories are sets of properties (+ correlations) Gärdenfors: Conceptual Spaces, 2000

  47. Goal space • Locations in visuo-spatial domain transformed into goal space • Extended by metaphorical mappings to more abstract goal spaces

  48. Geometry of Meaning • What is semantics? • Conceptual spaces and semantic domains • Semantics as a meeting of minds • Cognitive grounding of word classes: nouns, adjectives, verbs and prepositions • A cognitive theory of actions and events • Compositionality of meanings

  49. Semantics as a meeting of minds • Two kinds ofprocesses (1) Fast: • Joint attention • Common ground (2) Slow: • Coordinatingmeaningsofwords

More Related