Information system for prospective energy-saving management of small-scale energy facilities. 5: assessment of the survivability of the energy-saving management information system
https://doi.org/10.15518/isjaee.2025.09.120-154
Abstract
To assess the survivability of an information system with a complex topology (the network graph is a forest or a hybrid structure containing fragments of radial, forest-shaped, ring-shaped, radial-ring and mesh topology) or a large dimension, it is proposed to use neural network analytical models as analytical support. An information system for assessing survivability is constructed and described, survivability criteria are identified, survivability in polynomial form is described, its calculation, and the results of calculating survivability polynomials are presented. A comparison of the model and actually calculated estimates of the survivability of the energy-saving management information system is carried out. A flow model of the survivability of an energy-saving management information system has been built.
About the Authors
Yu. Yu. GromovRussian Federation
Gromov Yuri Yurievich, Doctor of Techn. Sciences, Professor, Director of the Institute of Automation and Information Technologies
Web of Science (Researcher ID): L-5152-2018 SCOPUS ID: 7004166858
392000, Tambov, Sovetskaya Street, 106
V. A. Pogonin
Russian Federation
Pogonin Vasiliy Aleksandrovich, Doctor of Techn. Sciences, Professor, Professor
Web of Science (Researcher ID): L-5213-2018 SCOPUS ID: 36790964500
392000, Tambov, Sovetskaya Street, 106
V. M. Tyutyunnik
Russian Federation
Tyutyunnik Viacheslav Mikhailovich, Doctor of Techn. Sciences, Professor, President and General Director of The International Nobel Information Centre (INIC), Professor at the Moscow State Institute of Culture
Web of Science (Researcher ID): I-6050-2017. SCOPUS ID: 57193325610
392000, Tambov, Sovetskaya Street, 106
References
1. Gromov, Yu. Yu. Information System for Advanced Energy-Saving Management of Small Power Plants. 1: аnalysis of Small Power Plants / Yu. Yu. Gromov, V. A. Pogonin, and V. M. Tyutyunnik // Alternative Energy and (ISJAEE). – 2025. – No. 05(434). – Pp. 174-192. – DOI: 10.15518/isjaee.2025.05.174-192.
2. Gromov, Yu. Yu. Information System for Advanced Energy-Saving Management of Small-Scale Power Plants. 2: еnergy-Saving Control Tasks / Yu. Yu. Gromov, V. A. Pogonin, and V. M. Tyutyunnik // Alternative Energy and Ecology (ISJAEE). – 2025. – No. 06(435). – Pp. 130-147. – DOI: 10.15518/isjaee.2025.06.130-147.
3. Gromov, Yu. Yu. Information System for Advanced Energy-Saving Management of Small-Scale Power Plants. 3: аnalysis of optimal energy-saving management / Yu. Y. Gromov, V. A. Pogonin, V. M. Tyutyunnik // Alternative Energy and Ecology (ISJAEE). – 2025. – No. 07(436). – Pp. 25-52. – DOI: 10.15518/isjaee.2025.07.025-052.
4. Gromov, Yu. Y. Information system for advanced energy-saving management of small-scale energy facilities. 4: мodel of Selection and Allocation of Resources in the Information System of Energy-Saving Management / Yu. Yu. Gromov, V. A. Pogonin, and V. M. Tyutyunnik // Alternative Energy and Ecology (ISJAEE). – 2025. – No. 08(437). – Pp. 25-52. – DOI: 10.15518/isjaee.2025.08.025-052.
5. Muromtsev, D. Yu. Economic Efficiency and Competitiveness: Textbook / D. Yu. Muromtsev, Yu. L. Muromtsev, V. M. Tyutyunnik, and O. A. Belousov. – 2nd edition, stereotyped. – Tambov: TSTU Publishing House, 2011. – 96 p.
6. Gromov, Yu. Yu. Synthesis and Analysis of the Survivability of Network Systems: Monograph / Yu. Yu. Gromov, V. O. Drachev, K. A. Nabatov, O. G. Ivanova. – Moscow: Mashinostroenie-1 Publishing House, 2007. – 152 p.
7. Dodonov, A. G. Survivability of Information Systems / A. G. Dodonov, D. V. Lande. – Kiev: Nauk. Dumka, 2011. – 256 p.
8. Vinokurov, D. E. Information system for assessing the survivability of network information systems using constructed analytical and procedural models. – Diss. for the degree of Candidate of Technical Sciences. – Tambov: TSTU, 2008.
9. Nash-Williams, C. Edge-disjoint spanning trees of finite graphs // Journal of London Mathematical Society. – 1961. – Vol. 36. – Pр. 445-450.
10. Tutte, W. T. On the problem of decomposing a graph into n connected factors // Journal of London Mathematical Society. – 1961. – Vol. 36. – Pр. 221-230.
11. Annan, J. D. The Complexity of Counting Problems. – Oxford: University of Oxford, 1994.
12. Jan, R. -H. Topological optimization of a communication network subject to a reliability constraint / R. -H. Jan, F. -J. Hwang, S. -T. Chen // IEEE Transactions on Reliability. – 1993. – Vol. 42. – Рр. 63-70.
13. Dubrovin, A. S. A systematic approach to ensuring security in an automated information system for special purposes / A. S. Dubrovin, V. I. Sumin, Yu. Yu. Gromov, and V. M. Tyutyunnik // Scientific and Technical Information: Series 2: Information Processes and Systems. – 2025. – No. 2. – Рp. 18-25. – DOI: 10.36535/0548-0027-2025-02-3
14. Tyutyunnik, V. M. Mathematical methods of scientific research: textbook. a handbook for graduate students in the humanities. university. – Tambov; Moscow; St. Petersburg; Baku; Vienna; Hamburg; Stockholm; Bouake; Varna; Tashkent: MINTs «Nobelistika» Publishing House, 2025. – 82 p. – DOI: 10.52529/9785866092512.
15. Dubrovin, A. S. A system approach to enduring security in a special-purpose automated information systems / A. S. Dubrovin, V. I. Sumin, Yu. Yu. Gromov, V. M. Tyutyunnik // Automatic documentation and mathematical linguistic. – 2025. – Vol. 59, No.1. – Pр. 33-40. – DOI: 10.3103/S0005105525700049.
16. Tyutyunnik, V. M. Decision-making models under conditions of uncertainly of formation, description and intellectual analysis of complex data files / V. M. Tyutyunnik, M. M. S. Alguzo // Mathematics and Systems Science. – 2025. – Vol. 3, Issue 2. – Article ID: 3053. – Pр. 1-16. – DOI: https://doi.org/10.54517/mss3053.
17. Tyutyunnik, V. M. Modeling the Decision-Making Process under Uncertainty / V. M. Tyutyunnik, M. M. S. Alguzo // Modern Science-Intensive Technologies. – 2024. – No. 12. – Pp. 107-112. – DOI: 10.17513/snt.40250.
18. Stekolnikov, Yu. I. System Survivability. – St. Petersburg: Politekhnika, 2002. – 155 p.
19. Leila, Zemmouchi-Ghomari. Basic Concepts of informationsystems. // Contemporary Issues in Information Systems – a Global Perspective. – IntechOpen, 2021, pp. 1-18.
20. Sumin, V. I. Optimization of the Functioning of Special-Purpose Information Systems / V. I. Sumin, Yu. Yu. Gromov, and V. M. Tyutyunnik // Scientific and Technical Information: Series 2: Information Processes and Systems. – 2023. – No. 5. – Pp. 7-12. – DOI: 10.36535/0548-0027-2023-05-1
21. Sumin, V. I. Optimization of special-purpose information systems operation / V. I. Sumin, Yu. Yu. Gromov, V. M. Tyutyunnik // Automatic Documentation and Mathematical Linguistics. – 2023. – Vol. 57, No. 3. – Pр. 135-139. – DOI: 10.3103/S0005105523030044
22. Sumin, V. I. Mathematical Models for Determining the Processing Time of Requests on Special-Purpose Information System Servers / V. I. Sumin, E. D. Grachev, Yu. Yu. Gromov, and V. M. Tyutyunnik // Scientific and Technical Information: Series 2: Information Processes and Systems. – 2023. – No. 10. – Pp. 11-15. – DOI: 10.36535/0548-0027-2023-10.
23. Sumin, V. I. Mathematical models for determining the time of processing requests on servers of special-purpose information systems / V. I. Sumin, E. D. Grachev, Yu. Yu. Gromov, V. M. Tyutyunnik // Automatic Documentation and Mathematical Linguistics. – 2023. – Vol. 57, No. 5. – Pр. 296-300. – DOI: 10.3103/ S0005105523050084.
24. Tyutyunnik, V. M. Cybernetic Model of a Control System // Information Processes, Systems, and Technologies. – 2022. – Vol. 3, No. 3(24). – Pp. 5-7. – DOI: 10.52529/27821617_2022_3_3_05.
25. Gribkov, A. N. Method of Structural Synthesis of an Algorithm for Calculating the Parameters of Optimal Control Functions for a Multidimensional Object / A. N. Gribkov, I. A. Kurkin // Informatics and Control Systems. – 2015. – No. 3(45). – Pp. 72-83.
26. Muromtsev D. Yu. Methods and Algorithms of Energy-Saving Control Synthesis of Technological Objects: Monograph. – Tambov; M.; St. Petersburg; Baku; Vienna: Publishing House of the MINTs «Nobelistika», 2005. – 380 p.
27. Abd Alhadi, H. Synthesis of the Membership Function and the Aggregation Operator in Fuzzy Information Decision-Making Systems / H. Abd Alhadi, Yu. V. Minin, and V. M. Tyutyunnik // Industrial Automated Control Systems and Controllers. – 2023. – No. 5. – Pp. 3-7. – DOI: 10.25791/asu.5.2023.1434.
28. Abd Alkhadi, Kh. The membership function and aggregation operator in fuzzy information decision-making systems / Kh. Abd Alkhadi, Yu. V. Minin, V. M. Tyutyunnyk // Devices and Systems. Management, Control, Diagnostics. – 2023. – No. 7. – Pp. 28-32. – DOI: 10.25791/pribor.7.2023.1425.
29. Juneja, H. Different types of information systems and their components, 2025 // URL: https://www.managementstudyguide.com/types-of-information-systems.htm
30. Van der Werf, M. E. M. The Information Systems Modeling Suite: Modeling the Interplay Between Information and Processes // Postprint, May 2020, pp. 1-10.
Review
For citations:
Gromov Yu.Yu., Pogonin V.A., Tyutyunnik V.M. Information system for prospective energy-saving management of small-scale energy facilities. 5: assessment of the survivability of the energy-saving management information system. Alternative Energy and Ecology (ISJAEE). 2025;(9):120-154. (In Russ.) https://doi.org/10.15518/isjaee.2025.09.120-154
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