A.A. Pozdnyakov1, A.M. Martynov2
1, 2 A.F. Mozhaisky Military Space Academy
1, 2 vka@mil.ru
Currently, one of the topical issues arising in the functioning of information and measurement systems (AIS) for various purposes is the issue of evaluating its effectiveness. For AIS of various classes, a significant complication of the background-target situation, based primarily on an increase in the number objects of observation in near-Earth outer space is the main problem.
The throughput capacity is provided for each AIS in their tactical and technical characteristics. This characteristic is determined even at the design stage based on the actual working conditions for targets and interference, taking into account the provision of their guaranteed observation. However, based on the above, it turns out that modern AIS, depending on the location and direction of the viewing area, are already working at the limits of their capacity capacity, or this will happen in the near future. On the AIS, the throughput is determined by such a parameter as the rate of formation of the first typical messages with a given probability. Based on the relevance of the described problem, it is of interest to simulate the operation of ICS in the conditions of extreme loads in terms of throughput in order to assess the real probability of the formation of the first vehicle, as well as to determine the factors that have a negative impact on the considered indicators.
Pozdnyakov A.A., Martynov A.M. Model of formation of a typical message for evaluating the performance of the information-measuring system functioning. Information-measuring and Control Systems. 2024. V. 22. № 3. P. 49−60. DOI: https://doi.org/ 10.18127/j20700814-202403-06 (in Russian)
- Pozdnyakov A.A., Kalinin T.V., Shatalov A.A., Khodataev N.A. Osobennosti soprovozhdeniya manevriruyushchikh tselei s bystroizmenyayushcheisya skorostyu v radiotekhnicheskikh ustroistvakh. Vestnik Rossiiskogo novogo universiteta. Seriya "Slozhnye sistemy: modeli, analiz, upravlenie". 2018. № 3. S. 37−47. (in Russian)
- Farina A., Studer F. Tsifrovaya obrabotka radiolokatsionnoi informatsii. Soprovozhdenie tselei: Per. s angl.. Pod red. A.N. Yureva. M.: Radio i svyaz. 1993. 322 s. (in Russian)
- Leonov A.I. i dr. Modelirovanie v radiolokatsii. Pod red. A.I. Leonova. M.: Sov. Radio. 1979. 264 s. (in Russian)
- Manuilov Yu.S., Vecherkin V.B., Basyrov A.G. Sistemnyi analiz, modelirovanie boevykh deistvii i sistem voennogo naznacheniya, kompyuternye tekhnologii v voennom dele (tekhnicheskie nauki): Ucheb. posobie. SPb.: VKA imeni A.F. Mozhaiskogo. 2015. 205 s. (in Russian)
- Manuilov Yu.S., Novikov E.A. Preobrazovanie i issledovanie matematicheskikh modelei dinamicheskikh sistem: Ucheb. posobie. Pod obshch. red. Yu.S. Manuilova. SPb.: VKA imeni A.F. Mozhaiskogo. 2011. 358 s. (in Russian)
- Shirman Ya.D. Teoreticheskie osnovy radiolokatsii: Ucheb. posobie dlya vuzov. M.: Sov. radio. 1970. 560 s. (in Russian)
- Savrasov Yu.S. Algoritmy i programmy v radiolokatsii. M.: Radio i svyaz. 1985. 216 s. (in Russian)
- Konovalov A.A. Osnovy traektornoi obrabotki radiolokatsionnoi informatsii. SPbGETU "LETI". 2013. 164 s. (in Russian)
- Pozdnyakov A.A., Shatalov A.A., Shatalova V.A. Algoritm raspoznavaniya medlenno i bystro fluktuiruyushchikh tselei na fone pomekh mnogochastotnoi tsel s FAR. Vestnik vozdushno-kosmicheskoi oborony. 2019. № 2. S. 85−95. (in Russian)
- Lisitskii V.V., Martynov A.M., Bogomaz D.V. Imitatsionnaya model razrabotki funktsionalnogo programmnogo obespecheniya informatsionno-izmeritelnoi sistemy. Vooruzhenie i ekonomika. 2023. № 1(63). S. 75−83. (in Russian)