AN ONTOLOGY MODEL FOR STUDYING THE PROPERTIES OF AMORPHOUS ALLOYS

Author(s): Dilla D.S., Artemieva I.L., Pustovalov E.V., Krestnikova O.A.

Rubric: System analysis, information management and processing

DOI: 10.21777/2500-2112-2026-2-98-115

Release: 2026-2 (55)

Pages: 98-115

Keywords: domain ontologies, amorphous alloys, electron microscopy, instrumental complex, atomic structure, meta-ontology

Annotation: High-resolution electron microscopy (HREM) investigations of amorphous alloys generate extensive image datasets. However, the absence of a standardized data representation framework impedes interpretation, com- promises research reproducibility, and limits the reuse of experimental results. This study proposes a multi-level ontology model that formalizes the complete experimental workflow, encompassing microscope parameters, alloy characteristics, clustering outcomes, and atomic structure analysis. The model is described using applied logic language as formalism. The model comprises three interconnected levels that define the domain-specific terminology, the methods and their parameters required for processing experimental data, and the structure for representing information about specific experiments, associated image series, identified clusters, and atomic points. The modular, three-tiered architecture of ontology ensures extensibility, component reuse, and strict semantic integrity of data. The developed model forms the basis of a software complex supporting end-to-end processing and analysis of electron microscopy image data.

Bibliography: Dilla D.S., Artemieva I.L., Pustovalov E.V., Krestnikova O.A. AN ONTOLOGY MODEL FOR STUDYING THE PROPERTIES OF AMORPHOUS ALLOYS // Education Resources and Technologies. – 2026. – № 2 (55). – С. 98-115. doi: 10.21777/2500-2112-2026-2-98-115

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