ontology matching

Towards large-scale schema and ontology matching

Authors: 
Rahm, E
Year: 
2011
Venue: 
Schema Matching and Mapping

The purely manual specification of semantic correspondences between schemas is almost infeasible for very large schemas or when many different schemas have to be matched. Hence, solving such large-scale match tasks asks for automatic or semi-automatic schema matching approaches. Large-scale matching needs especially be supported for XML schemas and different kinds of ontologies due to their increasing use and size, e.g. in e-business, web and life science appli-cations.

On Matching Large Life Science Ontologies in Parallel

Authors: 
Gross, A; Hartung, M; Kirsten, T; Rahm, E
Year: 
2010
Venue: 
Data Integration in the Life Sciences (DILS)

Matching life science ontologies to determine ontology mappings has recently become an active field of research. The large size of existing ontologies and the application of complex match strategies for obtaining high quality mappings makes ontology matching a resource- and time-intensive process. To improve performance we investigate different approaches for parallel matching on multiple compute nodes. In particular, we consider inter-matcher and intra-matcher parallelism as well as the parallel execution of element- and structure-level matching.

An efficient and scalable algorithm for segmented alignment of ontologies of arbitrary size

Authors: 
Seddiqui, Md. Hanif; Aono, Masaki
Year: 
2009

It has been a formidable task to achieve efficiency and scalability for the alignment between two massive, conceptually similar ontologies. Here we assume, an ontology is typically given in RDF (Resource Description Framework) or OWL (Web Ontology Language) and can be represented by a directed graph. A straightforward approach to the alignment of two ontologies entails an O(N2) computation by comparing every combination of pairs of nodes from given two ontologies, where N denotes the average number of nodes in each ontology.

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