Cargando…

Towards a multifunctional lexical resource : design and implementations of a graph-based lexicon model /

How can lexical data be represented such that they can serve to satisfy the needs of different types of dictionary users in different usage situations? Starting from a function-theoretic notion of lexicography, this book tries to answer this question by exploring the use of semantic web formalisms t...

Descripción completa

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Spohr, Dennis
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Berlin : De Gruyter, 2012.
Colección:Lexicographica. Series maior ; 141.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1 Preface; 2 Introduction; 2.1 Computational Lexicography; 2.2 Function Theory; 2.2.1 Definition of a Lexicographical Function; 2.2.2 The Concept of a Leximat; 2.3 Multifunctionality; 2.4 Objectives and Contributions of this Book; 3 Requirements Analysis and State of the Art; 3.1 Requirements Analysis; 3.1.1 Requirements on the Description; 3.1.2 Formal and Technical Requirements; 3.1.3 Multifunctional Requirements; 3.1.4 Implications on the Design of the MLR; 3.2 Overview of the State of the Art; 3.2.1 Traditional Approaches; 3.2.2 Recent Computational Lexical Resources and Models.
  • 3.2.3 Interfaces to Electronic Dictionaries for Human Users3.2.4 Summary; 4 A Graph-based Formalism for Representing Lexical Information; 4.1 Brief History of the Semantic Web; 4.1.1 The World Wide Web; 4.1.2 Recent Developments; 4.2 Formalisms, Query Languages and Tools; 4.2.1 URIs, IRIs and XML Namespaces; 4.2.2 XML, DTDs and XML Schema; 4.2.3 RDF and RDF Schema; 4.2.4 OWL; 4.2.5 Rule Languages; 4.2.6 Query Languages; 4.2.7 Tools; 4.2.8 Criticism of the Layer Cake Diagram; 4.3 Benefits of Semantic Web Formalisms for Computational Lexicography; 4.3.1 Types and Restrictions.
  • 4.3.2 Graph Interpretation and Modularity4.3.3 Underspecification and Inference; 4.3.4 Consistency Checking and Data Integrity; 4.3.5 OWL DL and Beyond; 5 Components of the Multifunctional Lexicon Model; 5.1 Lexical Entities; 5.1.1 Lexemes, Forms and Senses; 5.1.2 Types of Lexemes; 5.1.3 Lexical Relations; 5.2 Descriptive Entities; 5.2.1 Basic Modelling Decisions; 5.2.2 Simple Data Categories; 5.2.3 Form Description; 5.2.4 Valence Description; 5.2.5 Illustrative Description; 5.2.6 Preference Description; 5.3 Formalisation in Description Logics; 5.3.1 Lexical Entities in General.
  • 5.3.2 Specific Types of Lexemes5.4 Modelling Lexicographical Functions and NLP Requirements; 5.4.1 Preliminary Remarks; 5.4.2 Types of Users and User Situations; 5.4.3 Access and Presentation Status; 5.4.4 Labels and Interface Languages; 5.4.5 Putting Things Together: User Profiles; 5.4.6 NLP Profiles; 5.5 Architecture of the MLR Model; 5.5.1 Interrelationships between Components of the MLR Model; 5.5.2 Bilingual and Multilingual Perspectives; 5.5.3 Metrics of the MLR Model; 6 Towards a Multifunctional Lexical Resource; 6.1 Lexicon Compilation.
  • 6.1.1 Extraction and Unification of Data from Existing Resources6.1.2 Consistency Control; 6.1.3 Workflow of the Lexicon Compilation Process; 6.2 User-oriented Lexicon Access and Presentation; 6.2.1 Access and Presentation in the Sesame Workbench; 6.2.2 Access through a Custom Graphical User Interface; 6.2.3 Function-based Presentation of Lexical Entries; 6.3 NLP-oriented Lexicon Access and Data Export; 6.3.1 Application Programming Interfaces; 6.3.2 Data Export; 6.4 Sketch of an MLR Architecture; 6.4.1 Basic Components; 6.4.2 Processing Steps in a Human Usage Scenario.