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Art der Veröffentlichung: Artikel in Konferenzband
Autor: Oliver Kutz, Janna Hastings, Till Mossakowski
Herausgeber: Allan Ramsay, Gennady Agre
Titel: Modelling Highly Symmetrical Molecules: Linking Ontologies and Graphs
Buch / Sammlungs-Titel: 15th International Conference on Artificial Intelligence: Methodology, Systems, Applications
Band: 7557
Seite(n): 103 – 111
Serie / Reihe: Lecture Notes in Computer Science
Erscheinungsjahr: 2012
Verleger: Springer
Abstract / Kurzbeschreibung: With dramatically increasing volumes of chemical data becoming available in recent years, finding automated means to manage the deluge becomes ever more urgent. Traditional automated classification of chemical entities depends on identifying interesting parts and properties of the molecules. However, classes of chemical entities which are highly symmetrical and which contain large numbers of homogeneous parts (such as carbon atoms) are not straightforwardly classified in this fashion. One such class of molecules is the recently developed fullerene family, discovery of which led to the award of the Nobel prize for chemistry in 1996. Fullerene molecules show potential for many novel applications including in biomedicine.

Standard cheminformatics approaches to classification do not easily allow the automatic classification of chemical entities as members of the fullerene class based on their chemical structure, and neither does OWL, due to the tree model requirement. Furthermore, while individual members of the fullerene class can be modelled in standard FOL, expressing the properties of the class as a whole (independent of the count of atoms of the members) requires second-order quantification over the set of atoms in a molecule. Yet, given the size of chemical ontologies such as ChEBI, using second-order expressivity in the general case is prohibitively expensive to practical applications. To address these conflicting requirements, we introduce a novel framework in which we heterogeneously integrate standard ontological modelling with monadic second-order reasoning over chemical graphs, enabling various kinds of information flow between these distinct representational layers.
PDF Version: http://www.informatik.uni-bremen.de/~till/papers/AIMSA12-molecules-KutzEtAl.pdf
Schlagworte: molecule graph fullerene MSOL OWL ontology
Status: Reviewed
Letzte Aktualisierung: 04. 09. 2012

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