SOFTWARE DESIGN TECHNOLOGY FOR AUTOMATING THE PROCESS OF EVALUATING THE LEVEL OF INTERNATIONALIZATION OF SCIENTIFIC INSTITUTION’S ACTIVITIES
DOI:
https://doi.org/10.32689/maup.it.2025.3.22Keywords:
internationalization of scientific institutions, evaluation of the level of internationalization, architecture of the software system, software engineeringAbstract
The article is devoted to the development of software design technology for automating the process of evaluatingthe level of internationalization of a scientific institution’s activities by developing the IRI-Frame architectural template, which differs from universal templates in that it is focused on the specifics of internationalization assessment.The aim of this paper. Development of software design technology for automating the evaluation of the level ofinternationalization of scientific institutions’ activities based on the IRI-Frame architectural template and system models thatsupport the collection, processing and publication of data for expert decision-making.Methodology. An analysis of the subject area and system requirements was conducted, and an IRI-Frame architecturaltemplate was created, focused on the specifics of internationalization evaluation. The static model describes the main artifacts (project, methodology, specification) and their interaction through the Designer, Specifier, Choicer, Estimator, Publisher classes, which inherit the IRIS functionality. The dynamic model reflects scenarios – from the creation and study of methodologies to the selection of the best one and the publication of results. The technology includes three stages: environment definition,requirements formulation, and design of universal and specialized components.Scientific novelty. An IRI-Frame architectural template is proposed, which isolates universal components (support for system creation and evaluation) from special ones (methods of computation, data access, results publication). The combinationwith GoF patterns provides configuration changes without rewriting the code. The developed static and dynamic models detailthe processes of choosing methods of normalization, aggregation, weighting, and statistical analysis.Conclusions. The use of IRI-Frame simplifies the development of internationalization evaluation systems, ensuresscalability and integration with various data sources. The technology is suitable for creating separate systems and integratedcomponents. The models reflect the logic of work from project initiation to results publication, forming the basis for furtherexpansion of evaluation methods and optimization of algorithms.
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