Fusion - Visually Exploring and Eliciting Relationships in Linked Data

Building applications over Linked Data often requires a mapping between the application model and the ontology underlying the source dataset in the Linked Data cloud. This mapping can be defined in many ways. For instance, by describing the application model as a view over the source dataset, by giving mappings in the form of dependencies between the two datasets, or by inference rules that infer the application model from the source dataset. Explicitly formulating these mappings demands a comprehensive understanding of the underlying schemas (RDF ontologies) of the source and target datasets. This task can be supported by integrating the process of schema exploration into the mapping process and help the application designer with finding the implicit relationships that she wants to map. This paper describes Fusion - a framework for closing the gap between the application model and the underlying ontologies in the Linked Data cloud. Fusion simplifies the definition of mappings by providing a visual user interface that integrates the exploratory process and the mapping process. Its architecture allows the creation of new applications through the extension of existing Linked Data with additional data.

[1]  Vassilis Christophides,et al.  Viewing the Semantic Web through RVL Lenses , 2003, SEMWEB.

[2]  Martin J. O'Connor,et al.  A Software Tool for Visualizing, Managing and Eliciting SWRL Rules , 2010, ESWC.

[3]  Lora Aroyo,et al.  The Semantic Web: Research and Applications , 2009, Lecture Notes in Computer Science.

[4]  Huajun Chen,et al.  RDF/RDFS-based Relational Database Integration , 2006, 22nd International Conference on Data Engineering (ICDE'06).

[5]  François Scharffe,et al.  Processing Ontology Alignments with SPARQL , 2008, 2008 International Conference on Complex, Intelligent and Software Intensive Systems.

[6]  Steffen Staab,et al.  Views for light-weight Web ontologies , 2003, SAC '03.

[7]  Steffen Lohmann,et al.  Interactive Relationship Discovery via the Semantic Web , 2010, ESWC.

[8]  Adam Pease,et al.  Towards a standard upper ontology , 2001, FOIS.

[9]  Armin Haller,et al.  ActiveRDF: object-oriented semantic web programming , 2007, WWW '07.

[10]  Zahir Tari,et al.  On the Move to Meaningful Internet Systems 2007: CoopIS, DOA, ODBASE, GADA, and IS, OTM Confederated International Conferences CoopIS, DOA, ODBASE, GADA, and IS 2007, Vilamoura, Portugal, November 25-30, 2007, Proceedings, Part I , 2007, OTM Conferences.

[11]  Vassilis Christophides,et al.  RQL: a declarative query language for RDF , 2002, WWW.

[12]  François Scharffe,et al.  SPARQL++ for Mapping Between RDF Vocabularies , 2007, OTM Conferences.

[13]  Martin Gaedke,et al.  Silk - A Link Discovery Framework for the Web of Data , 2009, LDOW.

[14]  Daniel Schwabe,et al.  Explorator: A tool for exploring RDF data through direct manipulation , 2009, LDOW.