International Journal of Open Information Technologies

The Republic of Crimea and Sevastopol are multinational regions and, thus, the problem of inter-ethnic harmony in them was relevant at various periods of history. It remains extremely important at the moment, taking into account the new information, digital, extremist and terrorist challenges of the modern world. At the same time, the rapid development of modern information and communication technologies in this sense creates additional external challenges and threats, which need formation of effective means for assessing and countering degradation effects on the Internet audience of our society, thereby preventing the spread of extremist sentiments and terrorist attitudes.

To assess the effectiveness of control actions aimed at interethnic consolidation of society, it is not enough to use only Markov models, since they do not have "memory" and do not estimate the transition times and stay times of the actors of the social system under consideration in steady states. The complex use of Markov and semi-Markov models will allow at a higher level of adequacy to describe the adaptation processes of key actors, the behavior of which is determined by the “history” of their functioning, current control signals and other a priori information. This makes it possible to assess the degree of degassing impact on the Internet audience of multinational regions, analyze risk groups in the corresponding Internet segment and identify trends in its development.

The proposed complex of models is aimed at identifying the content and dynamic characteristics of social and media information flows, indicating problems in achieving interethnic harmony in the Republic of Crimea and  Sevastopol, as well as discourses circulating in social media that form user attitudes regarding interethnic harmony on the peninsula.

Gubanov D.A., Novikov D.A., Chkhartishvili A.G. Social networks: models of informational influence, management and confrontation. –3rd ed.– M.: MCME, 2018. – 224 p. (in Russian)

Gubanov D.A., Novikov D.A., Chkhartishvili A.G. Models of reputation and information management in social networks // Mathematical theory of games and its applications. – 2009. – №2. – P. 14 – 37. (in Russian)

Voronin D.Yu., Kuznetsov P.N., Evstigneev V.P., Litvinova R.N., Mityagin S.A. Neural network technologies for analyzing the sentiment of opinions for the implementation of a human-oriented concept of urban environment transformation // International journal of open information technologies. - 2020. - No. 7. - P. 76-83. (in Russian)

Youngchul C., Junghoo C. Social-network analysis using topic models // Proceedings of the 35th international ACM SIGIR conference on Research and development in information retrieval (SIGIR '12). – ACM, NY. – 2012. P. 565 – 574.

Yousefi Nooraie R. et al. Social network analysis: An example of fusion between quantitative and qualitative methods // Journal of Mixed Methods Research. – 2020. – Vol. 14. – № 1. – P. 110 – 124.

Chen Y., Hu J., Zhao H., Xiao Y., Hui P. Measurement and Analysis of the Swarm Social Network with Tens of Millions of Nodes // IEEE Access. – 2018. – P. 4547 – 4559.

Truong Q. D., Truong Q. B., Dkaki T. Graph Methods for Social Network Analysis // International Conference on Nature of Computation and Communication. – Springer, Cham, 2016. – P. 276 – 286.

Taniarza N., Maharani W. Social network analysis using k-Path centrality method // Journal of Physics: Conference Series. 2018. Vol. 971.

Yang J., McAuley J., Leskovec J. Community Detection in Networks with Node Attributes // 13th International Conference on Data Mining, Dallas, TX, 2013. – P. 1151 – 1156.

Lee C., Wilkinson D. J. A Social Network Analysis of Articles on Social Network Analysis // ArXiv. – 2018. – abs/1810.09781.

Sun L. et al. An optimized clustering method with improved cluster center for social network based on gravitational search algorithm // International Conference on Industrial IoT Technologies and Applications. – Springer, Cham, 2017. – P. 61 – 71.

Sun Y., Yin S., Li H., Teng L., Karim S. GPOGC: Gaussian Pigeon-Oriented Graph Clustering Algorithm for Social Networks Cluster // IEEE Access.– 2019. Vol. 7 –– P. 99254 – 99262

Smelser N. J. Theory of Collective Behavior. – London: Routledge, 2013. – 484 p.

Kendall D. Sociology in Our Times. – Boston: Massachusetts: Cengage Learning, 2012. – 704 p.

Korolyuk V. S., Turbin A. F. Matematicheskie osnovih fazovogo ukrupneniya slozhnihkh sistem. — Kiev: Naukova dumka, 1978. — 220 s.