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Human cognitive processing ;.
The semantics of dynamic space in French: descriptive, experimental and formal studies on motion expression. — v. 66. / edited by Michel Aurnague and Dejan Stosic. — 1 online resource. — (Human cognitive processing). — <URL:http://elib.fa.ru/ebsco/2228942.pdf>.

Record create date: 2/26/2019

Subject: French language — Semantics.; Motion in language.; French language — Semantics.; Motion in language.

Collections: EBSCO

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Table of Contents

  • The Semantics of Dynamic Space in French
  • Editorial page
  • Title page
  • Copyright page
  • Table of contents
  • Contributors
  • Acknowledgments
  • Recent advances in the study of motion in French
    • 1. Dynamic space in language and cognition
    • 2. Analyzing dynamic space in French: A longstanding line of research
    • 3. Scope of the book
      • 3.1 Arguments, modifiers, asymmetry of motion
      • 3.2 Manner of motion and fictive motion
      • 3.3 Psycholinguistic issues
      • 3.4 Formal and computational aspects of motion-based narrations
    • 4. New perspectives for the study of dynamic space in language and cognition
      • 4.1 Searching for the semantic components of motion events
      • 4.2 Path and localization
      • 4.3 Interacting with manner
    • Acknowledgments
    • References
  • Part I. Arguments, modifiers, asymmetry of motion
  • About asymmetry of motion in French
    • 1. Introduction: From goal bias to asymmetry of motion
    • 2. A semantic framework for dynamic space in French
    • 3. Implicit landmarks and opposite polarities
    • 4. Spatial prepositions from a dynamic viewpoint
    • 5. Listing and linking the properties
    • 6. Language, cognition and asymmetry of motion
      • 6.1 From language structure to language use
      • 6.2 Principle of positive/current localization
    • References
    • Appendix
  • French motion verbs
    • 1. Motion event
      • 1.1 Path verbs vs. Manner of motion verbs
      • 1.2 Semantic components of a motion event
      • 1.3 Satellite-framed vs. verb-framed languages
    • 2. Spatial criteria for motion event classification
      • 2.1 The relational nature of space in motion events
      • 2.2 Classification of French motion verbs: Aurnague’s (2011) criteria
    • 3. Semantic structure of French Motion verbs
      • 3.1 Change of placement verbs (‘courir’ ‘run’)
      • 3.2 Class of change of relation only (‘sauter’ ‘jump’)
      • 3.3 Class of change of relation and change of placement (‘aller’ ‘go’)
      • 3.4 Path defined as a set of independent features
      • 3.5 Manner defined as a set of independent features
    • 4. Argument/adjunct distinction in French: How locative PPs are special
      • 4.1 Syntactic criteria
      • 4.2 Syntactic tests and pragmatic constraints
    • 5. Methodology
    • 6. Argument structure of motion verbs and usage-based exploration of preferred constructions
      • 6.1 Final change of relation and change of placement verbs
        • 6.1.1 Final change of relation and change of placement verb with integrated prior motion: The case of ‘aller’ ‘go’
        • 6.1.2 Final change of relation and change of placement verb with presupposed prior motion: The case of ‘arriver’ ‘arrive’
      • 6.2 Independent vs. extended initial change of relation and change of placement verbs: ‘partir’ ‘leave’ vs. ‘s’enfuir’ ‘run away’
      • 6.3 Initial vs. final verbs of inclusion/containment type with change of relation and change of placement: ‘sortir’ ‘exit’ vs. ‘entrer’ ‘enter’
      • 6.4 First conclusion
    • 7. Change of placement verbs
    • Conclusion
    • Acknowledgments
    • References
  • From ‘il s’envole hors’ to ‘il sort du nid’
    • 1. Introduction
    • 2. State of the art: Motion event descriptions in Latin and Medieval French
    • 3. Theoretical framework and methodology
      • 3.1 Corpus
      • 3.2 Particles
      • 3.3 Noise
      • 3.4 Semantics and morpho-syntax
    • 4. Results
      • 4.1 Global evolution
      • 4.2 Step by step: From Old French to Modern French
        • 4.2.1 Old French (950–1350)
        • 4.2.2 Middle French (1351–1550)
        • 4.2.3 Preclassical and Classical French (1551–1800)
        • 4.2.4 Modern French (1801–2013)
      • 4.3 Microconstructions
    • 5. Discussion: A global replacement of spatial grams?
      • 5.1 The “satellite” microconstruction
      • 5.2 Semantic bleaching and grammaticalization
      • 5.3 Lexicalization and productivity
    • 6. Conclusion
    • Acknowledgments
    • References
    • Databases
    • Appendix. Coding scheme
  • Part II. Manner of motion and fictive motion
  • Manner as a cluster concept
    • 1. Five ways to express manner in French
      • 1.1 Syntactic encoding of manner
      • 1.2 Lexical encoding of manner
        • 1.2.1 Predicate decomposition approaches
        • 1.2.2 Lexicalization of manner in Talmy’s typological approach
        • 1.2.3 Manner as a structural lexical relation
      • 1.3 Morphological encoding of manner
      • 1.4 Grammatical encoding of manner
    • 2. Towards a more comprehensive definition of manner
    • 3. Manner of motion verbs in French: Where does the manner reading come from?
      • 3.1 Studying motion verbs in French: A long-standing tradition
      • 3.2 Lexicon of manner of motion verbs in French
      • 3.3 Towards an in-depth lexical exploration of manner of motion verbs in French
    • 4. Conclusion
    • Acknowledgements
    • References
    • Dictionaries
  • Motion verbs and evaluative morphology
    • 1. Introduction
    • 2. Evaluative morphology
    • 3. Evaluation and pluractionality
    • 4. Evaluation, pluractionality and manner of motion
    • 5. Evaluative verbs in French: New data
      • 5.1 Wiktionary as a new source of indexing deverbal evaluative verbs
      • 5.2 The method
      • 5.3 The results
      • 5.4 Discussion
    • 6. Toward a more comprehensive account of evaluative motion verbs in French
      • 6.1 Aurnague’s classification of motion verbs
      • 6.2 The lexicon of motion verbs in French
      • 6.3 Evaluative motion verbs in French revisited in the light of new data
      • 6.4 Going beyond lexicographic resources in the study of evaluative motion verbs
    • 7. General discussion and conclusion
    • References
    • Sources
  • Fictive motion in French
    • 1. Introduction
    • 2. Theoretical framework and constitution of the corpus
      • 2.1 Definition
      • 2.2 Semantics of motion verbs
      • 2.3 The corpus
    • 3. Fictive motion at the sentential level
    • 3.1 The manner condition
    • 3.2 Duration and speed
    • 3.3 Instrumentality
    • 3.4 Properties of the path
    • 3.5 The exception of migration paths
    • 4. Fictive motion in discourse
    • 5. Conclusion
    • Acknowledgments
    • References
  • Part III. Psycholinguistic issues
  • Casting an eye on motion events
    • 1. Introduction
    • 2. Linguistic and cognitive theories
      • 2.1 Motion components in cognitive linguistics: The Path-Manner asymmetry
        • 2.1.1 Inter-type, intra-type and intra-language variation: Some theoretical and methodological issues
        • 2.1.2 Typological status and variation in French: A brief overview
      • 2.2 The language-cognition interface
    • 3. Experimental studies
      • 3.1 Production measures
      • 3.2 Eye tracking paradigms and on-line measures
        • 3.2.1 Production tasks and eye tracking: Exploring visual scenes while preparing to speak
        • 3.2.2 Similarity judgment tasks and eye tracking
    • 4. Discussion
    • 5. Conclusion
    • References
  • Structure of French expression of motion
    • 1. Introduction
    • 2. Gesture-speech relation
      • 2.1 Gesture, language, and speech
      • 2.2 Gesturing, speaking, and thinking
      • 2.3 Impact of language and age
    • 3. Verbal and gestural expression of motion
      • 3.1 Speaking about motion in different languages
      • 3.2 Interest of gesture in motion research
      • 3.3 Gesturing about motion in different languages
      • 3.4 Gesturing about motion in children
    • 4. The present study
      • 4.1 Content and structure of expression of motion in French and Czech
      • 4.2 Design and hypotheses
      • 4.3 Participants, procedure, and materials
      • 4.4 Coding
        • 4.4.1 Coding of speech
        • 4.4.2 Coding of gesture
        • 4.4.3 Coding of gesture-speech relation
      • 4.5 Results
        • 4.5.1 Results for speech
        • 4.5.2 Results for gesture
        • 4.5.3 Results for gesture-speech relation
    • 5. Discussion
      • 5.1 Discussion of speech results
        • 5.1.1 Impact of language type
        • 5.1.2 Impact of age
      • 5.2 Discussion of gesture results
        • 5.2.1 Impact of language type
        • 5.2.2 Impact of age
      • 5.3 Discussion of gesture-speech results
        • 5.3.1 Impact of language type
        • 5.3.2 Impact of age
    • 6. Conclusion
    • Acknowledgments
    • References
  • Part IV. Formal and computational aspects of motion-based narrations
  • A computational account of virtual travelers in the Montagovian generative lexicon
    • 1. Introduction
    • 2. Lexical information and compositional semantics
    • 3. Standard compositional semantics
      • 3.1 The Lambek calculus
      • 3.2 A semantic lexicon
      • 3.3 Semantic analysis
      • 3.4 Overall architecture
    • 4. The Montagovian generative lexicon
      • 4.1 Principles of the lexicon
        • 4.1.1 Main or standard terms
        • 4.1.2 Optional morphisms of the terms
      • 4.2 Girard’s system F of type polymorphism
      • 4.3 Co-predication
        • 4.3.1 Polymorphic conjunction
        • 4.3.2 Rigid vs. flexible use of optional morphisms
      • 4.4 Standard behaviour
      • 4.5 Qualia exploitation
      • 4.6 Facets: Correct co-predication
      • 4.7 Applications
    • 5. Fictive motion: Data, question and outline
      • 5.1 A case study and a field for semantic experiments
      • 5.2 A particular phenomenon: “fictive motion”
      • 5.3 Types and functions
      • 5.4 Semantics with λ-DRT
      • 5.5 Lexical coercions and fictive motion
    • 6. Conclusion
    • References
  • Geoparsing and geocoding places in a dynamic space context
    • 1. Introduction
    • 2. Background and related work
      • 2.1 Parsing in computational linguistics
      • 2.2 Named entity recognition and classification
      • 2.3 Construction grammars
      • 2.4 Geoparsing, toponym ambiguities and geocoding
    • 3. Recognizing and locating places in a dynamic space context
      • 3.1 Geoparsing extended spatial entities
        • 3.1.1 Extended named entity (‘ENE’) structure
        • 3.1.2 Motion verbs and extended spatial named entity structures
      • 3.2 Geocoding
        • 3.2.1 Subtyping of place named entities
        • 3.2.2 Density-based spatial clustering
        • 3.2.3 Geocoding for unreferenced toponyms
        • 3.2.4 Automatic reconstruction of itineraries
    • 4. Evaluation
      • 4.1 Named entity recognition and classification
      • 4.2 Toponym disambiguation
      • 4.3 Density-based spatial clustering
      • 4.4 Geocoding for unreferenced toponyms
    • 5. Conclusion
    • References
  • Subject Index

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