A View Definition Language for the Semantic Web - PowerPoint PPT Presentation

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A View Definition Language for the Semantic Web

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Title: A View Definition Language for the Semantic Web


1
A View Definition Language for the Semantic Web
  • Maganaraki Aimilia

2
The Semantic Web
  • The Community Webs
  • Groups of people sharing a domain of discourse
    and a set of information resources (e.g.,
    documents, data, images etc)
  • Use of the Web as a medium to exchange
    information and knowledge
  • The objectives
  • To facilitate the reuse and integration of
    information resources by machines over the Web

3
and why bother with views on Semantic Web?
  • For the good old reasons
  • from the relational world
  • Data Independence
  • Personalization (end user, developer,
    application..)
  • Data Protection Mechanism- Access Restrictions
  • Integrity Constraints Verification
  • from the object-oriented world
  • Integration of Heterogeneous Databases
  • Versioning/ Schema Evolution
  • from the semistructured and XML world
  • Structuring schema-less data
  • Publishing Relational Databases for the Web

4
and why bother with views on Semantic Web?
  • and for new ones!
  • Web Resource Personalization
  • Subjective ontologies
  • Personalized navigation maps
  • Smart bookmarks
  • Mediation of heterogeneous web resources
  • Translation of structures between different
    schemas
  • Ontology management
  • Modularity
  • Versioning
  • Evolution

5
Resource Description Framework/Schema
  • A standard representation language for resource
    description and domain modeling
  • Humanly readable/ machine understandable syntax
  • Interpreted within or across communities using
    extensible descriptive schemas
  • Communities can define their own semantics and
    share the same infrastructure for consistent
    encoding, exchange and processing of resource
    descriptions

6
Resource Description Framework/Schema
  • RDF Resource Descriptions
  • Data Model Directed Label Graph
  • RDFS Schema Vocabularies
  • Abstraction Mechanisms
  • (multiple)class/property specialization
  • (multiple) classification of resources
  • Restriction Mechanisms
  • domain and range restriction
  • Documentation Facilities
  • label, comment, seeAlso, isDefinedBy
  • Global identifiers for schema labels allow their
    reuse across different data sources

7
A Formal Data Model for RDF/S
8
On Designing a View Language
  • Must take into account
  • The underlying data model
  • An object-oriented approach adapted to
    semistructured data
  • Class and Properties are first-class citizens
  • Must take advantage of
  • The RQL functional query language
  • To allow for functional composition of operations
  • The underlying type system
  • To ensure the validity of operations
  • To infer the type of view constructs
  • to output
  • A well defined virtual RDF/S schema that can be
    reused by others

9
The View Definition Process
10
RDF/S views Target Functionality
Input
Output
Basic RDF/S namespaces New classes/properties Formulation of hierarchies Top-down (specialization) Bottom-up (generalization)
Reuse Class/Property DAG Filter/Restructure a hierarchy
Customized population of classes and properties Transformations Instance ? Schema Schema ? Metaschema
Combination of above Combination of above
11
Proposed View Definition Language- RVL
  • Integrates in a uniform way the functionality
    needed, while taking into account the
    peculiarities of the underlying data model
  • Instantiation Operator
  • Create virtual (meta)classes and properties
  • Populate virtual (meta)classes and properties
  • Change the semantic level of a base element
  • Subsumption operator
  • Create hierarchies of virtual (meta)classes and
    properties
  • Filter and reorganize base hierarchies of
    (meta)classes and properties

12
Declaring an RDF/S View
VIEW operator FROM RQL_path_expression
WHERE filtering_conditions USING NAMESPACE
root_schema_namespace USING
NAMESPACE root_schema_namespace CREATE NAMESPACE
RVL_view_namespace
  • Everything defined in the view is identified by
    the namespace of the view
  • Everything reused by a root schema is identified
    by the namespace of the view

13
Instantiation Operator
  • General Syntax for (meta)classes
  • VIEW Symbol(Symbol)
  • FROM RQL_path_expression
  • WHERE filtering_conditions
  • USING NAMESPACE ns1URI, ..
  • General Syntax for properties
  • VIEW Symbol(Symbol, Symbol, Symbol)
  • FROM RQL_path_expression
  • WHERE filtering_conditions
  • USING NAMESPACE ns1URI, ..
  • where SymbolConstantVariable
  • Constraint Unique name assumption

14
Instantiation Operator (2)
creates metaclasses
creates classes properties
creates instances
15
Instantiation Operator (3)
  • Define a virtual metaclass of classes
  • VIEW rvlMetaClass(MyMetaClass)
  • Define a virtual metaclass of properties
  • VIEW rvlMetaProperty(MyMetaProperty)
  • Define a virtual class
  • VIEW rdfsClass(MyClass1)
  • Define a virtual property
  • VIEW rdfProperty(P1,MyClass1,MyClass2)
  • Populate a virtual class
  • VIEW MyClass1(Resource1)
  • Populate a virtual property
  • VIEW P1(Resource1,Resource2)

16
Instantiation Operator (4)
  • Reuse and rename a set of root classes
  • VIEW Class(Greek_X)
  • FROM subClassOf(ns1Artist,2)X
  • USING ns1www.art.com/schema.rdf
  • ?Greek_Sculptor, Greek_ Painter, Greek_
    Cubist, Greek_ Flemish
  • Reuse a set of root properties
  • VIEW Property(_at_P,Class(Creator),range(_at_P))
  • FROM Artist_at_P
  • ?Creator, last_name, xmlstring, Creator,
    first_name, xmlstring,
  • Creator, creates, Artifact

17
Instantiation Operator (5)
  • Populate a virtual class
  • VIEW PicassoWorksInOil(Y)
  • FROM ns1ArtistX.paintsY.techniqueZ,
  • Xlast_nameW
  • WHERE W like Picasso and Z like oil
  • USING ns1www.art.com/schema.rdf
  • Populate a virtual property
  • VIEW last_modified(X,2002-11-15)
  • FROM ns1MuseumX.ns2last_modifiedY
  • WHERE Ygt2000-01-01
  • USING ns1URI1,ns2URI

18
Subsumption Operator
  • General Syntax
  • VIEW SymbolltSymbolgt
  • FROM RQL_path_expression
  • WHERE filtering_conditions
  • USING NAMESPACE ns1URI, ..
  • Constraints
  • Acyclic hierarchies
  • Compatibility in terms of subsumption for domain
    and range of properties in property hierarchies

19
Subsumption Operator (2)
  • Relate two virtual classes with subsumption
  • VIEW PersonltArtistgt
  • Create subclasses for a virtual class
  • VIEW Museum_ArtifactltXgt
  • FROM subClassof(ns1Artifact)X
  • USING NAMESPACE ns1www.art.com/schema.rdf
  • Create superclasses for a virtual class
  • VIEW XltPhD_Studentgt
  • FROM bag(Teaching_Stuff,Graduate_Student)X

20
Properties of the View Definition Language
  • Minimality and Simplicity
  • Defines a minimum set of constructors without
    reducing the expressive power of the language
  • View declarations are simple and view results are
    clear
  • Generality
  • Preserves the underlying data model
  • Supports all primitives of the underlying data
    model
  • Logical Independence
  • The view declarations are isolated from those of
    the stored data
  • Real schemas do not use view definitions
  • View constructs are virtual ? support of virtual
    and not materialized views
  • Closure
  • Everything used by the view is also defined in
    the view

21
Thank you
22
Typing Rules
  • Instantiation operator
  • Classes
  • tMc ? (string tC tMc tMp tp tU) ? tC
  • tC ? tU? tU
  • Properties
  • tMp ? (stringtp, tCtMctMp, tCtMctMptL)?
    tp, tCtMctMp, tCtMctMptL
  • tP ? (tUtCtP, tUtCtPstringintegerrealdate
    boolean)?
  • tUtCtP, tP, tUtCtPstringintegerrealdate
    boolean

23
Typing Rules
  • Subsumption operator
  • tC ? tC ? tC, tC
  • tP ? tP ? tP, tP
  • tMc ? tMc ? tMc, tMc
  • tMp ? tMp ? tMp, tMp
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