RDF Schema

RDF Schema
Status Published
Year started 1998 (1998)
Editors Dan Brickley, Ramanathan V. Guha
Base standards RDF
Related standards OWL
Domain Semantic Web
Abbreviation RDFS
Website RDF Schema

RDF Schema (Resource Description Framework Schema, variously abbreviated as RDFS, RDF(S), RDF-S, or RDF/S) is a set of classes with certain properties using the RDF extensible knowledge representation data model, providing basic elements for the description of ontologies, otherwise called RDF vocabularies, intended to structure RDF resources. These resources can be saved in a triplestore to reach them with the query language SPARQL.

The first version[1][2] was published by the World-Wide Web Consortium (W3C) in April 1998, and the final[3] W3C recommendation was released in February 2004. Many RDFS components are included in the more expressive Web Ontology Language (OWL).

Main RDFS constructs

RDFS constructs are the RDFS classes, associated properties and utility properties built on the limited vocabulary of RDF.

Classes

A typical example of an rdfs:Class is foaf:Person in the Friend of a Friend (FOAF) vocabulary.[4] An instance of foaf:Person is a resource that is linked to the class foaf:Person using the rdf:type property, such as in the following formal expression of the natural-language sentence : 'John is a Person'.

ex:John rdf:type foaf:Person

The definition of rdfs:Class is recursive: rdfs:Class is the class of classes, and so it is an instance of itself.

rdfs:Class rdf:type rdfs:Class

The other classes described by the RDF and RDFS specifications are:

Properties

Properties are instances of the class rdf:Property and describe a relation between subject resources and object resources. When used as such a property is a predicate (see also RDF: reification).

For example, the following declarations are used to express that the property ex:employer relates a subject, which is of type foaf:Person, to an object, which is of type foaf:Organization:

ex:employer rdfs:domain foaf:Person

ex:employer rdfs:range foaf:Organization

Given the previous two declarations, the following triple requires that ex:John is necessarily a foaf:Person, and ex:CompanyX is necessarily a foaf:Organization:

ex:John ex:employer ex:CompanyX

For example, the following declares that 'Every Person is an Agent':

foaf:Person rdfs:subClassOf foaf:Agent

Hierarchies of classes support inheritance of a property domain and range (see definitions in next section) from a class to its subclasses.

Utility properties

Examples of RDF Vocabularies

Popular RDF vocabularies represented in RDFS include:[6]

RDFS entailment

An entailment regime defines by RDFs (,OWL, etc.) not only which entailment relation is used, but also which queries and graphs are well-formed for the regime. The RDFS entailment is a standard entailment relations in the semantic web.

For example, the following declares that 'Dog1 is an animal','Cat1 is a cat', 'Zoos host animals' and 'Zoo1 hosts the Cat2'  :

ex:dog1		rdf:type		ex:animal
ex:cat1		rdf:type		ex:cat
zoo:host	rdfs:range		ex:animal
ex:zoo1		zoo:host		ex:cat2

But this graph is not well formed because the system can not guess that a cat is an animal. We have to add 'Cats are animals' to do a well-formed graph with :

ex:cat		rdfs:subClassOf		ex:animal

Voila, the correct example:

In English The graph
  • Dog1 is an animal
  • Cat1 is a cat
  • Cats are animals
  • Zoos host animals
  • Zoo1 hosts the Cat2
RDF/turtle
@prefix rdf:   <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
@prefix rdfs:   <http://www.w3.org/2000/01/rdf-schema#> .
@prefix ex:   <http://example.org/> .
@prefix zoo:   <http://example.org/zoo/> .
ex:dog1	   rdf:type	    ex:animal .
ex:cat1	   rdf:type	    ex:cat .
ex:cat	   rdfs:subClassOf  ex:animal .
zoo:host   rdfs:range	    ex:animal .
ex:zoo1	   zoo:host	    ex:cat2 .

If your triplestore (or RDF database) implements the regime entailment of RDF and RDFS, the SPARQL query as follows (the keyword "a" is equivalent to rdf:type in SPARQL):

PREFIX  ex: <http://example.org/>
SELECT ?animal
WHERE
  { ?animal a ex:animal . }

Gives the following result with cat1 in it because the Cat's type inherits of Animal's type:

animal
<http://example.org/dog1>
<http://example.org/cat1>
<http://example.org/cat2>

See also

References

  1. RDFS first version
  2. "XML and Semantic Web W3C Standards Timeline" (PDF). 2012-02-04. Archived from the original (PDF) on April 24, 2013.
  3. Final W3C recommendation
  4. FOAF Vocabulary Specification 0.99 by Dan Brickley, Libby Miller.
  5. DuCharme, Bob (2011). Learning SPARQL. Sebastopol, California, United States: O'Reilly Media. p. 36. ISBN 9781449306595.
  6. 1 2 W3C RDF Primer by Guus Schreiber and Yves Raimond
  7. DCMI term declarations represented in RDF schema language, Dublin Core Metadata Initiative
This article is issued from Wikipedia - version of the 11/24/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.