DOI QR코드

DOI QR Code

Automated Assessment Of The Air Situation During The Preparation And Conduct Of Combat Operations Using A Decision Support System Based On Fuzzy Networks Of Target Installations

  • 투고 : 2022.11.05
  • 발행 : 2022.11.30

초록

The article considers the improved method and model of automated air situation assessment using a decision support system based on fuzzy networks of target installations. The advanced method of automated assessment of the air situation using the decision support system is based on the methodology of reflexive control of the first rank. With this approach, the process of assessing the air situation in the framework of the formulated task can be reduced to determining the purpose, probabilistic nature of actions and capabilities of the air target. The use of a homogeneous functional network for the formal presentation of air situation assessment processes will formally describe the process of determining classes of events during air situation assessment and the process of determining quantitative and qualitative characteristics of recognized air situation situations. To formalize the patterns of manifestation of the values of quantitative and symbolic information, it is proposed to use the mathematical apparatus of fuzzy sets.

키워드

참고문헌

  1. Volkov A.F., Lezik O.V., Gorbachev K.M., Bazilo S.M. Tactical art of the Air Defense Forces of the Land Forces and its development in the experience of modern armed conflicts. Collection of scientific works of Kharkiv National University of the Air Force. 2019. No 4 (62). pp. 40-45. https://doi.org/10.30748/zhups.2019.62.05.
  2. Kucherenko Yu. F., Demidov B.O., Shubin E.V. Some aspects of creating an automated air defense control system of Ukraine. Weapons systems and military equipment. 2019. No 1 (57). pp. 90-97. https://doi.org/10.30748/soivt.2019.57.13.
  3. Sudakov B.N. Automated control system of troops, part 1. Automated control systems of air defense forces: a textbook. Kharkiv: KhVU, 1998. 154 p.
  4. Automated air defense control systems of the Land Forces. Part 1. Basics of building automated control systems. Textbook / ed. NV Filatova. Kiev: VA PVO SV, 1989. 192 p.
  5. Automated air defense control systems of the Land Forces. Part 2. Device and application of automated control systems. Textbook / ed. NV Filatova. Kiev: VA PVO SV, 1990. 308 p.
  6. Nizienko B.I., Yukhnovsky S.A., Makarov S.A. Aspects of improving the air defense management system of Ukraine. Science and Technology of the Air Force of the Armed Forces of Ukraine. 2017. No 1 (26). pp. 17-20. https://doi.org/10.30748/nitps.2017.26.03.
  7. Iasechko, M., Shelukhin, O., Maranov, A. Evaluation of The Use of Inertial Navigation Systems to Improve The Accuracy of Object Navigation. International Journal Of Computer Science And Network Security, 21:3, 2021, p. 71-75. https://doi.org/10.22937/IJCSNS.2021.21.3.10
  8. S. Piskunov, M. Iasechko, O. Yukhno, N. Polstiana, Y. Gnusov, K. Bashynskyi, A.Kozyr. (2021). Application Of Probability Filter For Maintenance Of Air Objects. IJCSNS International Journal of Computer Science and Network Security. Vol. 21 No. 5, pp. 31-34.