Annotation:
The study aims to assess the potential integration of virtual and augmented reality technologies into intellectual management systems in order to optimize workflows and increase occupational safety.
To achieve the goal, employees from various companies, including MOEK PJSC, Moslift JSC, Zhilischnik SBI (State Budgetary Institution), MATs SBI, and the Rosatom State Corporation, have been tested. The test included five logical blocks with ten questions designed to assess the understanding of virtual and augmented reality technologies, their potential applications, the efficiency of implementation, technical aspects, and prospects for development in intellectual occupational safety management systems.
The results of testing have demonstrated a high level of awareness among the employees of the companies and their positive perception of virtual and augmented reality technologies. Most respondents understand the essence of such technologies and consider their potential to increase the efficiency and safety of employees’ work. The majority of respondents assume that their integration is an efficient solution and specifically note their benefits for the educational process when training personnel for work at hazardous production facilities. Technical aspects of the integration of virtual and augmented reality technologies are rated as moderate, with high requirements for technical support.
The development and integration of virtual and augmented reality into intellectual management systems can significantly increase occupational safety and labor efficiency in various fields. The implementation, however, requires significant investments, whereas cybersecurity is considered the main risk. For the successful implementation, it is crucial to thoroughly train the personnel, address technical issues, and consider the aspects of safety and cost-efficiency.
References:
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Chumakov K.V., Strizhak P.A., Kropotova S.S. Using Video Analytics to Monitor and Improve the Safety of Workflows. Bezopasnost Truda v Promyshlennosti = Occupational Safety in Industry. 2025. № 1. pp. 83–89. (In Russ.). DOI: 10.24000/0409-2961-2025-1-83-89
15. Zhang N., Luo G., Li Y., Zhang J., Yang X. Virtual Reality Interaction and Security Control System Framework Based on Digital Twin. Cyber Security Intelligence and Analytics. CSIA 2021. Advances in Intelligent Systems and Computing. Vol 1343. DOI: 10.1007/978–3–030–69999–4_119
16. Иванов А.В. Технологии виртуальной и дополненной реальности: возможности и препятствия применения // Стратегические решения и риск-менеджмент. 2018. № 3. С. 88–107. DOI: 10.17747/2078-8886-2018-3-88-107
Ivanov A.V. VR & AR Technologies: opportunities and application obstacles. Strategicheskie resheniya i risk-menedzhment = Strategic decisions and risk management. 2018. № 3. pp. 88–107. (In Russ.). DOI: 10.17747/2078-8886-2018-3-88-107
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Volynov M.M., Kitov A.A., Goryachkin B.S. Virtual Reality: Types, Structure, Features, Development Prospects. E-Scio. 2020. № 5 (44). pp. 795–812. (In Russ.).
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Sosnilo A.I., Ustyuzhanina M.D. Technology of Virtual and Augmented Reality as Factors of State Economic Policy and Business Competitiveness Growth. Vestnik PNIPU. Sotsialno-ekonomicheskie nauki = Bulletin of PNIPU. Socio-Economic Sciences. 2019. № 2. (In Russ.). DOI: 10.15593/2224-9354/2019.2.15
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Tychkov A.Yu., Volkova K.Yu., Kiseleva D.V., Rodionova E.A. A Review of Virtual Reality Systems. Izvestiya vuzov. Povolzhskiy region. Tekhnicheskie nauki = University proceedings. Volga region. Technical sciences. 2020. № 2 (54). pp. 3–13. (In Russ.). DOI: 10.21685/2072-3059-2020-2-1
20. Тимофеева С.С., Максимова М.А., Храмовских В.А. VR–технологии и производственная безопасность // Безопасность труда в промышленности. 2025. № 2. С. 90–96. DOI: 10.24000/0409-2961-2025-2-90-96
Timofeeva S.S., Maksimova M.A., Khramovskikh V.A. VR-Technology and Industrial Safety. Bezopasnost Truda v Promyshlennosti = Occupational Safety in Industry. 2025. № 2. pp. 90–96. (In Russ.). DOI: 10.24000/0409-2961-2025-2-90-96
21. Noah N., Shearer S., Das S. Security and Privacy Evaluation of Popular Augmented and Virtual Reality Technologies. SSRN Electronic Journal. 2022. DOI: 10.2139/ssrn.4173372
Deryabin S.A., Kondratev E.I., Rzazade Ulvi Azar ogly, Temkin I.O. Digital Mine architecture modeling language: Methodological approach to design in Industry 4.0. Gornyy informatsionno-analiticheskiy byulleten (nauchno-tekhnicheskiy zhurnal) = Mining informational and analytical bulletin (scientific and technical journal). 2022. № 2. pp. 97–110. (In Russ.). DOI: 10.25018/0236_1493_2022_2_0_97
2. Polyanska A., Savchuk S., Dudek M., Sala D., Pazynich Y., Cichoń D. Impact of digital maturity on sustainable development effects in energy sector in the condition of industry 4.0. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2022. (6). рр. 97–103. DOI: 10.33271/nvngu/2022–6/097
Polyanska A., Savchuk S., Dudek M., Sala D., Pazynich Y., Cichoń D. Impact of digital maturity on sustainable development effects in energy sector in the condition of industry 4.0. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu = Scientific Bulletin of the National Mining University. 2022. (6). рр. 97–103. DOI: 10.33271/nvngu/2022–6/097
3. Kryukov A., Suslov K., Kryukov A. Calculation of Modes and Electromagnetic Influences of a Long–Distance Ultra-high Voltage Power Transmission to Pipeline Based on Digital Models. Communications in Computer and Information Science. 2025. рр. 3–23. DOI: 10.1007/978-3-031-70966-1_1
4. Plieva M., Klyuev R., Gudiev T. On the issue of organizing digital control systems in power grid companies. Proceedings – 2021 International Conference on Industrial Engineering, Applications and Manufacturing, ICIEAM 2021. 2021. рр. 96–101. DOI: 10.1109/ICIEAM51226.2021.9446450
5. Bulatov Y., Kryukov A., Suslov K. Innovative Technologies for Controlling Modes of Power Supply Systems Using Renewable Energy Sources. Environmental Science and Engineering. 2024. pp. 299–344. DOI: 10.1007/978–3–031–55448–3_13
6. Куприянов В.В., Бондаренко И.С. Информационные методы идентификации трудноуправляемых факторов, влияющих на аварийное загазирование горных выработок шахт // Безопасность труда в промышленности. 2024. № 3. С. 65–72. DOI: 10.24000/0409-2961-2024-3-65-72
Kupriyanov V.V., Bondarenko I.S. The Information Methods to Identify Difficult-to-Control Factors Affecting Emergency Gas Contamination in Mine Excavations. Bezopasnost Truda v Promyshlennosti = Occupational Safety in Industry. 2024. № 3. pp. 65–72. (In Russ.). DOI: 10.24000/0409-2961-202-3-65-72
7. Makhovikov A.B., Katuntsov E.V., Kosarev O.V., Tsvetkov P.S. Digital transformation in oil and gas extraction. Innovation-Based Development of the Mineral Resources Sector: Challenges and Prospects. 2018. № 11. pp. 531–538.
8. Martirosyan A., Ilyushin Y., Afanaseva O., Kukharova T., Asadulagi M., Khloponina V. Development of an Oil Field's Conceptual Model. International Journal of Engineering. 2025. Vol. 38. Iss. 2. рр. 381–388. DOI: 10.5829/ije.2025.38.02b.12
9. Chromcak J., Farbak M., Ivannikov A., Sasik R., Dibdiakova J. Remote Sensing Data Analysis for the Ecological Stability Purposes. IOP Conference Series: Earth and Environmental Science. 2021. 906 (1). DOI: 10.1088/1755-1315/906/1/012068
10. Yakovlev A.A., Kondybayeva A.B., Solodov S.V. Intelligent System for Collecting, Analyzing and Managing Data in the Field of Medicine. Wave Electronics and its Application in Information and Telecommunication Systems, WECONF. 2019. DOI: 10.1109/WECONF.2019.8840588
11. Drusa M., Mihalik J., Muzik J., Gago F., Stefanik M., Rybak J. The Role of Geotechnical Monitoring at Design of Foundation Structures and their Verification — Part 2. Civil and Environmental Engineering. 2021. 17 (2). DOI: 10.2478/cee-2021-0067
12. Kulikova E., Ivannikov A. Geographic information systems in geological monitoring during the construction of urban underground structures. Monitoring 2019. 2019. https://doi.org/10.3997/2214-4609.201903192
13. Becherer M., Karduck A. Agent-based simulation for testing vehicle-on-demand services in rural areas. Advances in Intelligent Systems and Computing. 2021. pp. 256–269. DOI: 10.1007/978-3-030-55190-2_20
14. Чумаков К.В., Стрижак П.А., Кропотова С.С. Применение видеоаналитики для мониторинга и повышения безопасности технологических процессов // Безопасность труда в промышленности. 2025. № 1. С. 83–89. DOI: 10.24000/0409-2961-2025-1-83-89
Chumakov K.V., Strizhak P.A., Kropotova S.S. Using Video Analytics to Monitor and Improve the Safety of Workflows. Bezopasnost Truda v Promyshlennosti = Occupational Safety in Industry. 2025. № 1. pp. 83–89. (In Russ.). DOI: 10.24000/0409-2961-2025-1-83-89
15. Zhang N., Luo G., Li Y., Zhang J., Yang X. Virtual Reality Interaction and Security Control System Framework Based on Digital Twin. Cyber Security Intelligence and Analytics. CSIA 2021. Advances in Intelligent Systems and Computing. Vol 1343. DOI: 10.1007/978–3–030–69999–4_119
16. Иванов А.В. Технологии виртуальной и дополненной реальности: возможности и препятствия применения // Стратегические решения и риск-менеджмент. 2018. № 3. С. 88–107. DOI: 10.17747/2078-8886-2018-3-88-107
Ivanov A.V. VR & AR Technologies: opportunities and application obstacles. Strategicheskie resheniya i risk-menedzhment = Strategic decisions and risk management. 2018. № 3. pp. 88–107. (In Russ.). DOI: 10.17747/2078-8886-2018-3-88-107
17. Волынов М.М., Китов А.А., Горячкин Б.С. Виртуальная реальность: виды, структура, особенности, перспективы развития // E-Scio. 2020. № 5 (44). C. 795–812.
Volynov M.M., Kitov A.A., Goryachkin B.S. Virtual Reality: Types, Structure, Features, Development Prospects. E-Scio. 2020. № 5 (44). pp. 795–812. (In Russ.).
18. Соснило А.И., Устюжанина М.Д. Технологии виртуальной и дополненной реальности как факторы государственной экономической политики и роста конкурентоспособности бизнеса // Вестник ПНИПУ. Социально-экономические науки. 2019. № 2. DOI: 10.15593/2224-9354/2019.2.15
Sosnilo A.I., Ustyuzhanina M.D. Technology of Virtual and Augmented Reality as Factors of State Economic Policy and Business Competitiveness Growth. Vestnik PNIPU. Sotsialno-ekonomicheskie nauki = Bulletin of PNIPU. Socio-Economic Sciences. 2019. № 2. (In Russ.). DOI: 10.15593/2224-9354/2019.2.15
19. Обзор систем виртуальной реальности/ А.Ю. Тычков, К.Ю. Волкова, Д.В. Киселева, Е.А. Родионова // Известия вузов. Поволжский регион. Технические науки. 2020. № 2 (54). C. 3–13. DOI: 10.21685/2072-3059-2020-2-1
Tychkov A.Yu., Volkova K.Yu., Kiseleva D.V., Rodionova E.A. A Review of Virtual Reality Systems. Izvestiya vuzov. Povolzhskiy region. Tekhnicheskie nauki = University proceedings. Volga region. Technical sciences. 2020. № 2 (54). pp. 3–13. (In Russ.). DOI: 10.21685/2072-3059-2020-2-1
20. Тимофеева С.С., Максимова М.А., Храмовских В.А. VR–технологии и производственная безопасность // Безопасность труда в промышленности. 2025. № 2. С. 90–96. DOI: 10.24000/0409-2961-2025-2-90-96
Timofeeva S.S., Maksimova M.A., Khramovskikh V.A. VR-Technology and Industrial Safety. Bezopasnost Truda v Promyshlennosti = Occupational Safety in Industry. 2025. № 2. pp. 90–96. (In Russ.). DOI: 10.24000/0409-2961-2025-2-90-96
21. Noah N., Shearer S., Das S. Security and Privacy Evaluation of Popular Augmented and Virtual Reality Technologies. SSRN Electronic Journal. 2022. DOI: 10.2139/ssrn.4173372