International Journal of Open Information Technologies

This article reveals a number of external and internal challenges that affect the approaches to the construction and operation of nuclear power plants, as well as one of the ways to overcome them - the creation of an automated enterprise management system at all stages of the life cycle. Automated enterprise management system: a set of software, hardware, information, organizational and technological tools for effective planning and management of business processes at nuclear power plants, optimization of costs and ensuring the safety of electricity generation at NPPs. The main functionality of the digital enterprise management system (DEMS) at different NPP life cycle stages (construction, operation, decommissioning) is revealed, as well as the enlarged structure (structural subsystems) of the DEMS. Essence of the DEMS functional blocks is articulated. Their coverage by information systems is shown based the business processes analysis. The stages of DEMS creation are listed. The implementation of R&D prior to the design of the automated process control system is substantiated. The results of the research should be the concept of the DEMS and the terms of reference for the creation of the DEMS system. The basis for the development of the concept and technical specification should be a harmonized set of functional and non-functional requirements for the system.

WuX. Panoramic images and navigation systems for npp's workshops and equipment’s// Abstracts of the International Scientific and Technical Conference "Safety, Efficiency and Economics of Nuclear Energy". Moscow 2024. Page. 298.

McKinsey Global Institute. Reinventing construction: A route to higher productivity (February 2017).

Grishin M.O. Best practices in construction project management on the example of Construction Industry Institute (CII), 2022.

Analysis of the Possibility of Forecasting Construction Delays Based on Historical Data Using Machine Learning Methods (https://www.elibrary.ru/item.asp?edn=ytbozx) // Konkov V.V., Shirokov V.I., Zhabitskii M.G. // Modern Problems of Physics and Technology/ Collection of Abstracts of the XI International Youth Scientific School-Conference. Moscow, 2024 218-220.

Structure of the third-level experience information container and technical-regulatory documentation work organization during the life cycle of a complicated engineering object // Melnikov V.E., Zhabitskii M.G., Kupriyanovsky V.P., Djaparov R.R. (https://elibrary.ru/item.asp?id=44584142) // International Journal of Open Information Technologies, 2021 Vol. 9, №. 1, page. 145-151.

A digital twin of a complex engineering object is the basic concept of intelligent energy transformation (https://elibrary.ru/item.asp?id =43939245) // Zhabitskii M.G., Melnikov V.E., Boyko O.V. In: Alternative and Intelligent Energy. Proceedings of the II International Scientific and Practical Conference. Voronezh 2020. Page. 270-271.

Text Mining Application for the Third Level Regulatory Documentation Container Formation the Complex Engineering Object Information Model such as Nuclear Power Unit (https://elibrary.ru/item.asp?id=44476738), Zhabitskii M.G., Melnikov V.E., Djaparov R.R. In the book: Application of Virtual Reality Technologies and Related Information Systems in the Interdisciplinary Tasks of FIT-M 2020. Collection of Abstracts of the International Scientific Conference. 2020. Page. 96-102.

Predicting construction delays using machine learning based on historical data on the actual duration of completed projects (https://elibrary.ru/item.asp?id=68641610) Konkov V.V., Shirokov V.I., Zhabitskii M.G. International Journal of Open Information Technologies. 2024. Vol. 12. № 8. page. 35-47.

Development of a system for digital structural engineering control with the ability to validate the current state against the design state based on objective visual data (https://elibrary.ru/item.asp?id=68641614) Ekimovskaya V.A., Zhabitskii M.G.. International Journal of Open Information Technologies. 2024. Vol. 12. № 8. page. 76-83.

Complex engineering object digital twins – power engineering smart transformation basic concept (https://elibrary.ru/item.asp?id =71301490) Zhabitskii M.G., Melnikov V.E., Boyko O.V. IOP Conference Series: Materials Science and Engineering. 2021. Т. 1035. № 1. page. 012050.

Decree of the President of the Russian Federation dated 30.03.2022 No 166 "On Measures to Ensure the Technological Independence and Security of the Critical Information Infrastructure of the Russian Federation".

Federal Law of the Russian Federation of 26.07.2017 No187-FZ "On the Security of the Critical Information Infrastructure of the Russian Federation».

FSTEC Order dated 25.12.2017 No239 "On Approval of the Requirements for Ensuring the Security of Significant Facilities of the Critical Information Infrastructure of the Russian Federation».

Order of Rosatom State Corporation dated May 30, 2022 No 1/671-P "On Measures to Ensure the Technological Independence and Security of the Information Infrastructure of Rosatom State Corporation».

Order of Rosenergoatom Concern JSC dated 24.08.2020 No 9/01/1250-P "On Approval and Implementation of the Uniform Industry Guidelines for the Categorization of Critical Information Infrastructure Facilities and the Guidelines for the Categorization of Critical Information Infrastructure Facilities in Rosenergoatom Concern JSC".

GOST R 59793-2021 "Automated Systems. Stages of Creation".

MaoW. Вevelopment and application of the smart safety management platform// Сборник материалов МНТК-2024.