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Документ Construction of hybrid security systems based on the crypto-code structures and flawed codes(ПП "Технологічний Центр", 2017) Yevseiev, S. P.; Korol, O. G.; Kots, HryhoriiIn order to ensure safety of SCCI, it is proposed to use hybrid crypto-code constructions based on the modified asymmetric crypto-code McEliece systems on flawed codes, which make it possible to obtain maximum quantity of emergent properties at minimal resource cost for initiating in the system the synergistic effect of security provision. The main difference from known approaches to the construction of hybrid cryptosystems is the use of MCCS instead of symmetric cryptosystems; to strengthen resistance and to "reduce" the alphabet power (dimensionality of field GF(26–28) to build the McEliece MCCS), the systems on flawed codes are employed. The algorithms proposed in present work for the formation and decryption of a cryptogram in the hybrid cryptosystem based on MCCS on flawed codes make it possible to practically implement HCCSFC. The study that we conducted into energy consumption of major operations in the hybrid cryptosystems and their stability on the basis of the proposed assessment procedure confirms efficiency of their application in order to provide basic requirements to service quality in IES.Документ Mechanisms for ensuring the security of channels of a prospective management system(Національний технічний університет "Харківський політехнічний інститут", 2022) Tomashevsky, Bogdan; Yevseiev, S. P.; Pohasii, Serhii; Milevskyi, StanislavThe development of military (state) control systems in modern conditions of hybrid warfare requires the possibility of rapid expansion of both functionality and scaling of the physical and logical basis of management, increasing the range of digitization and use of both military and civilian communication channels to manage troops and weapons. Not only the computing power of the enemy, the means of suppressing and / or blocking the communication channels of the control system, but also the development of quantum technologies that place new and more stringent requirements on security mechanisms based on symmetric and asymmetric cryptography algorithms. According to NIST, a full-scale quantum computer breaks both symmetric and asymmetric cryptosystems in polynomial time, significantly reducing their resilience. The paper proposes mechanisms of post-quantum cryptography, which allow to ensure the stability of not only communication channels, but also elements of the structure of the control system. The basis of post-quantum encryption algorithms is the combination of algorithms (schemes) of crypto-code structures with cryptosystems on unprofitable codes (multi-channel cryptography), as well as the possibility of combining them with digital steganography methods. This approach provides the ability to hide elements of management commands, and the use of different channels provides the ability to hide individual elements of cryptograms.