Dynamic Model of Guarantee Capacity and Cyber Security Management in the Critical Automated Systems - volodymyr-sokolov/publications GitHub Wiki
Conference Paper
Hennadii Hulak 
,
Pavlo Skladannyi ,
Volodymyr Sokolov ,
Evgen Hulak ,
Viktor Korniiets
The paper examines the methods of increasing the effectiveness of guarantee capacity management and cyber security of automated systems in critical infrastructure. The use of Anthony's business management model is proposed to build a management system. A binary relation of partial order on a set of functional security profiles of computer systems is proposed to arrange the levels of security. The dynamic model of the provision of capacity and cyber security and critical performance indicators proposed in the paper can be used to model the behavior of critical infrastructure objects and form balanced management decisions in the relevant industries.
Anthony triangle; critical infrastructure; cybersecurity; cybersecurity culture; Dynamic management model; guarantee capacity
Neural Network; Wireless Sensor Network; Quality of Service
2022 2nd International Conference on Conflict Management in Global Information Networks (CMiGiN)
30 November 2022 
Kyiv, Ukraine
First Online: 30 October 2023
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ISSN: 1613-0073
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EID: 2-s2.0-85176926997
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DBLP: conf/cmigin/HulakSSHK22
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KUBG: 46792
Hulak, H., Skladannyi, P., Sokolov, V., Hulak, Y., & Korniiets, V. (2023). Dynamic Model of Guarantee Capacity and Cyber Security Management in the Critical Automated System. In 2nd International Conference on Conflict Management in Global Information Networks (Vol. 3530, pp. 102–111).
H. Hulak, P. Skladannyi, V. Sokolov, Y. Hulak, and V. Korniiets, “Dynamic Model of Guarantee Capacity and Cyber Security Management in the Critical Automated System,” 2nd International Conference on Conflict Management in Global Information Networks, vol. 3530, pp. 102–111, 2023.
H. Hulak, et al., Dynamic Model of Guarantee Capacity and Cyber Security Management in the Critical Automated System, in: 2nd International Conference on Conflict Management in Global Information Networks, vol. 3530 (2023) 102–111.