TOOL SUPPORT FOR AUTOMATED SYSTEM-OBJECT GRAPHIC MODELING OF PROCESSES
In the course of conducting this dissertation research, the author developed a method and algorithm for automating the graphic-analytical modeling of organizational, business, and production-technological processes. The proposed method and algorithm utilize a special formal-semantic normative system of the "Unit-Function-Object" system-object approach. The article substantiates the feasibility and feasibility of developing software tools that support the automated procedure for constructing graphical process models. UML diagrams are presented for the design of original modules that perform symbolic calculations for constructing context decomposition diagrams defined in terms of a formal-semantic normative system. In accordance with the use case diagram, the designed toolkit will automatically construct a context decomposition diagram for the modeled process, defined in terms of a formal-semantic normative system. First, the variants of interface subprocesses that provide functional context relationships are calculated. Then, using an iterative method, the variants of subprocesses that support the interface subprocesses are calculated. It is also assumed that it will be possible to set restrictions on the decomposition results and select a suitable decomposition option, and, in addition, the ability to visualize intermediate and final results.
Dmitrieva Yu.V. Tool Support for Automated System-Object Graphic Modeling of Processes // Research result. Information technologies. – Т.11, №1, 2026. – P. 12-19. DOI: 10.18413/2518-1092-2026-11-1-0-2
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1. Dmitrieva Yu.V., Zhikharev A.G., Matorin S.I. Problems of graphoanalytical modeling of processes caused by the human factor // Proceedings of the X All-Russian Scientific and Technical Conference "Information Technologies in Science, Education and Production" (ITNOP-2025). June 5-6, 2025, Orel. – Pp. 190-194.
2. Druzhinin G.V. Humans in Technological Models. Part I: Human Properties in Technological Systems. Moscow: MIIT, 1996. – 124 p.
3. Soloviev A.V. Modeling the Impact of the Human Factor on the Functioning of Information Systems // Proceedings of the Institute for Systems Analysis of the Russian Academy of Sciences, – 2021. – Vol. 71. – No. 1. – Pp. 34-43.
4. Matorin S.I., Pesotsky S.A., Zhikharev A.G., Dmitrieva Yu.V. Improved alphabet for graphoanalytical modeling of processes using system-object analysis // Artificial intelligence and decision-making. – 2024. – No. 2. – Pp. 62-75.
5. Matorin S.I., Zhikharev A.G., Dmitrieva Yu.V. Information Modeling of Business Processes Using a Formal-Semantic Alphabet // Scientific and Technical Information. Ser.2. – 2025. – No.1. – Pp. 16-20
6. Matorin S.I., Dmitrieva Yu.V., Zhikharev A.G. Properties of the Improved Node-Function-Object Notation Alphabet for Graph-Analytical Modeling of Business Processes // Artificial Intelligence and Decision-Making. – 2025. – No. 3. – Pp. 32-41.
7. Grenander U. Lectures on the theory of images. 1 Synthesis of images. / Translated from English. – M.: Mir, 1979.
8. Grenander U. Lectures on the theory of images. 2 Analysis of images. / Translated from English. – M.: Mir, 1981.
9. Dmitrieva Yu.V., Zhikharev A.G. Automation of system-object graphical modeling of processes. // Economics. Information technologies. – 2026. 53(1): 164–178.
10. Zimovets O.A., Malkush E.V., Matorin S.I., Zhikharev A.G. Comparison of the UML normative system with the UFO-approach normative system // Economics. Information technologies. – 2025. – 52(1): 168–180.