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ChemDataExtractor 2.0: Autopopulated Ontologies for Materials Science

Juraj Mavračić, Callum J. Court, Taketomo Isazawa, Stephen R. Elliott, Jacqueline M. Cole

2021Journal of Chemical Information and Modeling140 citationsDOI

Abstract

The ever-growing abundance of data found in heterogeneous sources, such as scientific publications, has forced the development of automated techniques for data extraction. While in the past, in the physical sciences domain, the focus has been on the precise extraction of individual properties, attention has recently been devoted to the extraction of higher-level relationships. Here, we present a framework for an automated population of ontologies. That is, the direct extraction of a larger group of properties linked by a semantic network. We exploit data-rich sources, such as tables within documents, and present a new model concept that enables data extraction for chemical and physical properties with the ability to organize hierarchical data as nested information. Combining these capabilities with automatically generated parsers for data extraction and forward-looking interdependency resolution, we illustrate the power of our approach via the automatic extraction of a crystallographic hierarchy of information. This includes 18 interrelated submodels of nested data, extracted from an evaluation set of scientific articles, yielding an overall precision of 92.2%, across 26 different journals. Our method and associated toolkit, ChemDataExtractor 2.0, offers a key step toward the seamless integration of primary literature sources into a data-driven scientific framework.

Topics & Concepts

Computer scienceHierarchyInformation retrievalData miningInformation extractionSet (abstract data type)PopulationData scienceKnowledge extractionExploitParsingFocus (optics)Artificial intelligenceDemographyMarket economyPhysicsComputer securitySociologyProgramming languageOpticsEconomicsMachine Learning in Materials ScienceComputational Drug Discovery MethodsBiomedical Text Mining and Ontologies
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