ASSESSING THE QUALITY OF AUTOMATED MALICIOUS INFORMATION DETECTION

The article presents findings of the analysis of threats arising due to the spread of information, which can have a negative impact on a person’s psychological condition. Modern mechanisms for detection and blocking of malicious information are considered; a mathematical apparatus for assessing the quality of information detection is established; and a functional model of informational and technological processes for the examination of an information source for malicious information is designed.

1. Mediapotreblenie 2022. URL: https://media scope.net/upload/iblock/883/f11rt3k24o0ju2jkak4v0 s0wr836wobp/MEDIAPOTREBLENIE_DIGITAL_14092022.pdf (accessed: 11.01.2023). (In Russian).

2. Simonova V. A., Lifintseva E. A. Protecting children from negative information on the internet. Scientific News. 2022;(26):128–131. (In Russian).

3. Titor S. E., Kameneva T. N. Destructive influence of the Internet on behavior of minors: Results of empirical study. Caucasian Science Bridge. 2022;5(4):126–135. (In Russian).

4. Bogomolov A. V., Chuikov D. S., Zaporozhsky Yu. A. Sredstva obespecheniia bezopasnosti informatsii v sovremennykh avtomatizirovannykh sistemakh. Information Technologies. 2003;(1):2–8. (In Russian).

5. Avetisyan A. I. Kiberbezopasnost v kontekste iskusstvennogo intellekta. Vestnik Rossiiskoi akademii nauk. 2022;92(12):1119–1123. DOI 10.31857/ S0869587322120039. (In Russian).

6. Mamchenko M. V., Meshcheryakov R. V., Galin R. R. et al. Socio-cyberphysical system for detecting and blocking destructive internet content. In: Proceedings of the 18th International Young Scientists Conference “Modern Issues in Radioelectronics and Telecommunications “RT – 2022””, October 10‒14, 2022, Sevastopol. Sevastopol: Sevastopol State University; 2022. p. 159. (In Russian).

7. Ivanov A. A., Bogomolov A. V. Architecture of heterogeneous information environment for integration of information resources of enterprises solving problems of investing in human capital. MMTT. 2022;(8):76–79. (In Russian).

8. Meshcheryakov R. V., Iskhakov S. Yu. Study of comprometation indicators for improvement of information and cyberphysical systems protection facilities. Voprosy kiberbezopasnosti. 2022;(5):82–99. DOI 10.21681/2311-3456-2022-5-82-99. (In Russian).

9. Tobin D. S., Golosovsky M. S., Bogomolov A. V. Technology for ensuring the accuracy of information during network examinations. Modern Information Technologies and IT-Education. 2020;16(3):623–632. (In Russian).

10. Shaposhnikov V. A. Kvalimetriia. Yekaterinburg: Publishing House of the Russian State Vocational Pedagogical University; 2016. 134 p. (In Russian).

11. Prudnikov S. I., Kotlyar A. V. Method of forming departmental network expert communities. MMTT. 2023(3):104–107. DOI 10.52348/2712-8873_MMTT_ 2023_3_104. (In Russian).

12. Subetto A. I. Kvalimetriiа: malaia entsiklopediia. Is. 1. St. Petersburg: Publishing House of the North-West Institute of Management ‒ Branch of the RANEPA; 2015. 244 p. (In Russian).

13. Vecherkin V. B., Galankin A. V., Prokhorov M. A. The methods for estimation of sustainability operation of automated control system of critical information infrastructure in the conditions of information influence. News of the Tula State University. Technical Sciences. 2018;(6):160–170. (In Russian).

14. Tikhonov S. V. Metodika perekhoda ot IDEF0 k modeli v terminakh teorii sistem massovogo obsluzhivaniia pri issledovanii biznes-protsessov organizatsii. Large-Scale Systems Control. 2008;21:5–15. (In Russian).