Orel, Orel, Russian Federation
Moskva, Moscow, Russian Federation
Moskva, Moscow, Russian Federation
One of the contradictions in the ergonomic support for developing and operating the latest equipment is the lack of optimization models for substantiating ergonomic requirements at the early stages of design. To eliminate this contradiction, this study considers the method of ergo-optimization of economic costs in designing critical information infrastructure facilities under the influence of electromagnetic pulses to maximize the prevented damage. The approach developed by the authors makes it possible to justify the choice of measures to ensure the functional stability of these objects and is based on intelligent technology for optimizing and stabilizing systems. In prospective studies, it is planned to assess the economic effect of implementing ergonomic requirements, both in the development process and in operating critical information infrastructure facilities.
optimization and stabilization technology, critical infrastructure facilities; functional stability assurance system; electromagnetic pulses
1. Ivanov, V. A. Ensuring the Safety of Information and Telecommunication Facilities when Exposed to an Electromagnetic Pulse. Proceedings of the Second International Scientific Confe¬rence on Security and Counteraction to Terrorism / V. A. Ivanov, E. V. Grechishnikov, A. A. Dvilyansky. - Moscow State University, 2006. - Moscow: MCNMO, 2007. - 664 p.
2. Harker, D. Intellectual Buildings. Design and Operation of the Information Structure / D. Harker, P. Bacon, J. Snyder et al. - Moscow: Seti MP, 1996. - 386 p.
3. Polezhaev, A. P. Optimizing the Object System for Protecting Information about Dualuse Products / A. P. Polezhaev, V. I. Vasilets // Special equipment, no. 5. - Moscow: Electroza-vod, 1996. - pp. 1-5.
4. Dvilyansky, A. A. Synergetic Approach to Building a System for Protecting Objects of Infocommunication Systems from Electronic Attacks / A. A. Dvilyansky, V. A. Ivanov // Devices and Systems. Management, Control, Diagnostics: Nauchtekhlitizdat. - 2015. - no. 6. - pp. 7-16.
5. Zhernenko, A. S. Multicriteria Choice of Optimal Design Solutions in Telecommunications: studies. allowance / A. S. Zhernenko, V. V. Marakulin. - St. Petersburg: St. Petersburg state. University of Telecommunications. prof. M. A. Bonch-Bruevich, 2010. - 60 p.
6. Doroshenko, V. A. Method of Multicriteria Choice of Options Based on Genetic Algorithm / V. A. Doroshenko, L. V. Druk, M. S. Usachev // Bulletin of MGUL. - Lesnoy Bulletin, no. 3 (86). - Moscow: FGBOU VPO MGUL, 2012. - pp. 160-166.
7. Gudkov, A. G. Interaction of Technological Innovations of Technological Heredity in the Process of Evolutionary Development of Technologies / A. G. Gudkov, V. V. Popov // Science-intensive technologies. - 2011. - no. 9. - pp. 61-69.
8. Pisaruk, N. N. Introduction to the Theory of Games / N. N. Pisaruk. - Minsk: BSU, 2015. - 256 p.
9. Nash, J. Equilibrium points in n-person games / J. Nash // Proceedings of the National Acadamy of Science. - 36 (1950). - pp. 48-49.
10. Peregudov, F. I. Introduction to System Analysis: a textbook for universities / F. I. Peregudov, F. P. Tarasenko. - Moscow: Higher school, 1989. - 367 p.
11. Lewing, L. System Identification. Theory for the User / L. Lewing: trans. from English ; ed. Ya. Z. Tsypkin. - Moscow: Nauka. ch. ed. phys.-mat. lit., 1991. - 432 p.
12. Dvilyansky, A. A. Methodology for Assessing the Complex Security of Infocommunication Systems Objects from the Impact of Destructive Electromagnetic Radiation: monograph / A. A. Dvilyansky, V.A. Ivanov. - Oryol: Russian Federation Security Guard Service Federal Academy, 2019. - 230 p.
13. Dvilyanskiy A. A. Optimizing the Information Protection System of Information Communication System Objects from Cyber-terrorist Threats. / A. A. Dvilyansky, V. A. Ivanov // Information systems and technologies. Mathematical and computer modelling. - no. 3 (77) May-June. - pp. 118-126.