We propose a new technique for approximate ABox reasoning with OWL DL ontologies. Essentially, we obtain substantially improved reasoning performance by disregarding non-Horn features of OWL DL. Our approach comes as a side-product of recent research results concerning a new transformation of OWL DL ontologies into negation-free disjunctive datalog, and rests on the idea of performing standard resolution over disjunctive rules by treating them as if they were non-disjunctive ones. We analyse our reasoning approach by means of non-monotonic reasoning techniques, and present an implementation, called Screech
Although the computational complexity of the logic underlying the standard OWL 2 for the Web Ontolog...
Answering a query over a group of RDF data pages is a trivial process. However, in the Semantic Web,...
Semantic Web applications based on the Web Ontology Language (OWL) often require the use of number...
We propose a new technique for approximate ABox reasoning with OWL DL ontologies. Essentially, we ob...
Knowledge representation and reasoning on the Semantic Web is done by means of ontologies. While the...
We propose a new technique for approximate ABox reasoning with OWL DL ontologies. Essentially, we ob...
We present a preliminary version of the approximate OWL reasoning system SCREECH. It builds on the K...
Acknowledgements This work has been partially supported by the European project Marrying Ontologies ...
Logic programming has always been a major ontology modeling paradigm, and is frequently being used i...
The ontology knowledge base (KB) can be divided into two parts: TBox and ABox, where the former mode...
Logic programming has always been a major ontology modeling paradigm, and is frequently being used i...
Logic programming has always been a major ontology modeling paradigm, and is frequently being used i...
Abstract. With the increasing interest in expressive ontologies for the Semantic Web, it is critical...
With the increasing interest in expressive ontologies for the Semantic Web, it is critical to develo...
The Web Ontology Language. (OWL) is a family of description logic based ontology languages for the S...
Although the computational complexity of the logic underlying the standard OWL 2 for the Web Ontolog...
Answering a query over a group of RDF data pages is a trivial process. However, in the Semantic Web,...
Semantic Web applications based on the Web Ontology Language (OWL) often require the use of number...
We propose a new technique for approximate ABox reasoning with OWL DL ontologies. Essentially, we ob...
Knowledge representation and reasoning on the Semantic Web is done by means of ontologies. While the...
We propose a new technique for approximate ABox reasoning with OWL DL ontologies. Essentially, we ob...
We present a preliminary version of the approximate OWL reasoning system SCREECH. It builds on the K...
Acknowledgements This work has been partially supported by the European project Marrying Ontologies ...
Logic programming has always been a major ontology modeling paradigm, and is frequently being used i...
The ontology knowledge base (KB) can be divided into two parts: TBox and ABox, where the former mode...
Logic programming has always been a major ontology modeling paradigm, and is frequently being used i...
Logic programming has always been a major ontology modeling paradigm, and is frequently being used i...
Abstract. With the increasing interest in expressive ontologies for the Semantic Web, it is critical...
With the increasing interest in expressive ontologies for the Semantic Web, it is critical to develo...
The Web Ontology Language. (OWL) is a family of description logic based ontology languages for the S...
Although the computational complexity of the logic underlying the standard OWL 2 for the Web Ontolog...
Answering a query over a group of RDF data pages is a trivial process. However, in the Semantic Web,...
Semantic Web applications based on the Web Ontology Language (OWL) often require the use of number...