Abstract
The relevance of the development of a cyber-resistant platform for the Internet of things is explained by the need to ensure the required security and stability of the critical information infrastructure of the Russian Federation, and by the imperfection of the known models, methods, and means of collecting and processing data in IIoT/IoT networks based on wireless technologies. This article presents the main scientific and technical results of solving the mentioned problem based on the author’s models and methods of the theory of similarity and dimensions of distributed computing, the domestic wireless protocol Logic InterNode Connection, LINCand the domestic OS FenixOS, intended for the collection and processing of telemetric data. The obtained scientific results allowed us to design a prototype of the domestic platform of the Internet of things with self-healing paths for receiving and transmitting data between smart devices in IIoT/IoT networks and systems in the face of growing security threats.
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This work was supported by the RFBR grant (No. 18–47-160011 p_a).
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Petrenko, S., Petrenko, A., Makoveichuk, K.A., Olifirov, A. (2021). Development of a Cyber-Resistant Platform for the Internet of Things Based on Dynamic Control Technology. In: Singh, P.K., Veselov, G., Vyatkin, V., Pljonkin, A., Dodero, J.M., Kumar, Y. (eds) Futuristic Trends in Network and Communication Technologies. FTNCT 2020. Communications in Computer and Information Science, vol 1395. Springer, Singapore. https://doi.org/10.1007/978-981-16-1480-4_13
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