Work place: Almaty University of Power Engineering and Telecommunication, Almaty, Kazakhstan
E-mail: s.tynym@mail.ru
Website:
Research Interests: Hardware Security, Information Security, Network Architecture, Network Security, Computing Platform, Mathematics of Computing
Biography
Sakhybay Tynymbayev
PhD, Professor at Almaty University of Power Engineering and Telecommu-nication, Academic of International Academy of Informatics. In 1964 he finished Kazakh Polytechnic Institute, after this he studied in postgraduate training and receive PhD degree.
Major research interests: Network & Internet Security, High-Performance Computing, Cybersecurity, Hardware Encryption, Public Key Cryptography.
By Zhengbing Hu Sergiy Gnatyuk Tetiana Okhrimenko Sakhybay Tynymbayev Maksim Iavich
DOI: https://doi.org/10.5815/ijcnis.2020.03.01, Pub. Date: 8 Jun. 2020
Due to the fundamentally different approach underlying quantum cryptography (QC), it has not only become competitive, but also has significant advantages over traditional cryptography methods. Such significant advantage as theoretical and informational stability is achieved through the use of unique quantum particles and the inviolability of quantum physics postulates, in addition it does not depend on the intruder computational capabilities. However, even with such impressive reliability results, QC methods have some disadvantages. For instance, such promising trend as quantum secure direct communication – eliminates the problem of key distribution, since it allows to transmit information by open channel without encrypting it. However, in these protocols, each bit is confidential and should not be compromised, therefore, the requirements for protocol stability are increasing and additional security methods are needed. For a whole class of methods to ensure qutrit QC protocols stability, reliable trit generation method is required. In this paper authors have developed and studied trit generation method and software tool TriGen v.2.0 PRNG. Developed PRNG is important for various practical cryptographic applications (for example, trit QC systems, IoT and Blockchain technologies). Future research can be related with developing fully functional version of testing technique and software tool.
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