Decomposition model of representation of semantic constants and variables for implementation of examinations in the TPI sphere

Authors

  • Олександр Григорович Корченко National Aviation University
  • Анатолій Миколайович Давиденко Pukhov Institute for Modelling in Energy Engineering of NAS of Ukraine
  • Максим Радуйович Шабан Pukhov Institute for Modelling in Energy Engineering of NAS of Ukraine

DOI:

https://doi.org/10.18372/2410-7840.21.13766

Keywords:

state expert examination of IIPS, model of decomposition of source documents, grid-tools, template of output documents, decision support systems, semantic blocks, semantic constants, semantic variables

Abstract

State expertise is a lengthy process and is associated with possible errors both at the stage of the design work and during the examination itself. Therefore, the actual scientific task is to create an information system that would help the expert in building output documents, and also allow the expert to check the functional protection profile (FPP). The paper proposes a decomposition model, which, due to the formed sets of input and output documents of the p-th project, as well as plural semantic blocks, semantic constants and variables of the p-th project, allows automating the process of identifying the FPP. To do this, we decomposed the output documents, taking into account the stages of the formation of sets of examination documents, the structure of semantic blocks, the semantic variables of output documents. Analyze the principles of the organization of the structure of documents that are created at the stage of state examination of integrated information protection systems (IIPS). Introduce the concept of semantic blocks, semantic constants, semantic variables. The semantic block is a permanent semantic construction that has a complete semantic meaning. The semantic constant is a stable semantic construction, the existence of which goes beyond the framework of the state expert review of the IIPS. In turn, the semantic variable is a semantic construction, the time of its existence is equal to the time of the state examination of the IIPS. All this has allowed to speed up the process of creating output documents of state expert reviews of the IIPS. The development of these works is the development of the method of identification of the FPP. This will allow to formalize the requirements of the regulatory document in relation to its properties, which will be done in future articles

Author Biographies

Олександр Григорович Корченко, National Aviation University

Dr Eng (Information security), professor, laureate of the State Prize of Ukraine in Science and Technology, Head of IT-Security Academic Deparment, National Aviation University, Visit-Professor at The University of Bielsko-Biala (Akademia Techniczno-Humanistyczna, Bielsko-Biała, Poland), Leading Researcher of the National Academy of SS of Ukraine

Анатолій Миколайович Давиденко, Pukhov Institute for Modelling in Energy Engineering of NAS of Ukraine

Candidate of Technical Sciences, Senior Researcher, Leading Researcher of Department of Modelling Theory, Pukhov Institute for Modelling in Energy Engineering of NAS of Ukraine

Максим Радуйович Шабан, Pukhov Institute for Modelling in Energy Engineering of NAS of Ukraine

engineer Pukhov Institute for Modelling in Energy Engineering

References

В. Шорошев, І. Пающик, А. Давиденко, Система підтримки прийняття рішень щодо забезпечення інформа-ційної, антивірусної та фізичної безпеки комп'ютерних систем органів внутішніх справ України «ТОРСІОН-3», Міністерство внутрішніх справ України, Дер-жавний науково-дослідний інститут МВС Украї-ни, Департамент документального забезпечення та режиму МВС України, Методичні рекоменда-ції, Київ 2010, 189 с.

М. Шабан, А. Давиденко, "Разработка методики проведения комплексных систем защиты ин-формации", Моделювання та інформаційні технології, Вип. 73, С. 114-121, 2014.

М. Шабан, "Реалізація програмного модуля під-тримки прийняття рішень при проведенні екс-пертизи грід-засобів на відповідність вимогам НД ТЗІ", Збірка праць конференції «Моделювання 2018», С. 259-262, 2018.

С. Головань, А. Давиденко, Л. Щербак, "Про термінологію в області безпеки інформації", Збі-рник наукових праць Інституту проблем моделювання в енергетиці ім. Г. Є. Пухова, Вип. 66, С. 31-35, 2013.

L. Zadeh, "Fuzzy sets", Inform. Control, vol. 8, no. 3, pp. 338-353, 1965.

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Published

2019-06-27

Issue

Vol. 21 No. 2 (2019)

Section

Articles

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