Proceedings of Tenth International Semantic Web Conference, Part II

DC Proposal: Graphical Models and Probabilistic Reasoning for Generating Linked Data from Tables

Vast amounts of information is encoded in tables found in documents, on the Web, and in spreadsheets or databases. Integrating or searching over this information benefits from understanding its intended meaning and making it explicit in a semantic representation language like RDF. Most current approaches to generating Semantic Web representations from tables requires human input to create schemas and often results in graphs that do not follow best practices for linked data. Evidence for a table’s meaning can be found in its column headers, cell values, implicit relations between columns, caption and surrounding text but also requires general and domain-specific background knowledge. We describe techniques grounded in graphical models and probabilistic reasoning to infer meaning associated with a table. Using background knowledge from the Linked Open Data cloud, we jointly infer the semantics of column headers, table cell values (e.g., strings and numbers) and relations between columns and represent the inferred meaning as graph of RDF triples. A table’s meaning is thus captured by mapping columns to classes in an appropriate ontology, linking cell values to literal constants, implied measurements, or entities in the linked data cloud (existing or new) and discovering or and identifying relations between columns.

  • 124490 bytes

  • 1182670 bytes

entity linking, graphical models., learning, linked data, tables


LCNS 7032, Springer-Verlag

L. Aroyo et al. (Eds.)


Submitted at the Doctoral Consortium

Downloads: 2601 downloads

UMBC ebiquity

Past Projects

  1. Tables to Linked Data