Scientific Data (May 2022)

FAIR and Interactive Data Graphics from a Scientific Knowledge Graph

  • Michael E. Deagen,
  • Jamie P. McCusker,
  • Tolulomo Fateye,
  • Samuel Stouffer,
  • L. Cate Brinson,
  • Deborah L. McGuinness,
  • Linda S. Schadler

DOI
https://doi.org/10.1038/s41597-022-01352-z
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 11

Abstract

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Abstract Graph databases capture richly linked domain knowledge by integrating heterogeneous data and metadata into a unified representation. Here, we present the use of bespoke, interactive data graphics (bar charts, scatter plots, etc.) for visual exploration of a knowledge graph. By modeling a chart as a set of metadata that describes semantic context (SPARQL query) separately from visual context (Vega-Lite specification), we leverage the high-level, declarative nature of the SPARQL and Vega-Lite grammars to concisely specify web-based, interactive data graphics synchronized to a knowledge graph. Resources with dereferenceable URIs (uniform resource identifiers) can employ the hyperlink encoding channel or image marks in Vega-Lite to amplify the information content of a given data graphic, and published charts populate a browsable gallery of the database. We discuss design considerations that arise in relation to portability, persistence, and performance. Altogether, this pairing of SPARQL and Vega-Lite—demonstrated here in the domain of polymer nanocomposite materials science—offers an extensible approach to FAIR (findable, accessible, interoperable, reusable) scientific data visualization within a knowledge graph framework.