| Authors |
Zyabirov El'dar Vital'evich, Electronic engineer, department 09270, Research and Production Enterprise “Rubin” (2 Baydukova street, Penza, Russia), E-mail: add.zyabirov@gmail.com
Aravin Artem Vladimirovich, Deputy head of department 09270, Research and Production Enterprise “Rubin” (2 Baydukova street, Penza, Russia), E-mail: a.v.aravin@yandex.ru
Mikhaylov Sergey Vladimirovich, Electronic engineer, department 09270, Research and Production Enterprise “Rubin” (2 Baydukova street, Penza, Russia), E-mail: smikhaylov987@mail.ru
Filyushkin Ivan Pavlovich, Candidate of engineering sciences, associate professor, head of department 09270, Research and Production Enterprise “Rubin” (2 Baydukova street, Penza, Russia), E-mail: a.v.aravin@yandex.ru
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| Abstract |
Background. The research object is a complex of automation equipment of a battery command post. The research object is the methods and means of information processing from deevices of investigation in the complex of automation equipment of a battery command post. The work purpose is to compare and analyze forms of a correlation strobe, to develop an effective, optimal algorithm of detection in strobes of an elliptic form.
Materials and methods. Researches of methods and means of information processing from devices of investigation in the complex of automation equipment of a battery command post were executed on the basis of the theory of statistical decisions.
Results. The process of formation of the capture strobe when setting up the trajectory of an air target is considered. Two forms of correlation strobes are analyzed: elliptical and rectangular. An efficient and optimal algorithm for detecting marks in elliptical gates has been developed.
Conclusions. For the first time, the conditions for the formation of an adaptive elliptic correlation identification strobe based on the calculation of the standard deviation, identification criteria and source priority are proposed. An adaptive algorithm for processing and integrating aerial reconnaissance data has been developed, which differs from the known ones using an elliptical correlation identification strobe. The results of the work are advisable to lay into the foundation for the ground forces air defense control subsystem software to increase the accuracy of target designation and reduce the probability of missing a target in a complex dynamic environment.
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| Key words |
target detection, identification, control point, radar information, intelligence system, elliptical strobe, proximity measure
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| References |
1. Ostrovoy S. V. Vestnik voyskovoy PVO [Bulletin of military air defense]. 2014, no. 11, p. 177.
2. Korenko E. V. Vestnik voyskovoy PVO [Bulletin of military air defense]. 2014, no. 10, p. 93.
3. Filyushkin I. P., Aravin A. V., Zyabirov E. V. Voprosy radioelektroniki. Ser.: Sistemy otobrazheniya informatsii i upravleniya spetstekhnikoy (SOIU) [Issues of radio electronics. Series: Systems of information display and special equipment control]. Moscow: Elektronika, 2015, iss. 2, p. 66.
4. Kuz'min S. Z. Tsifrovaya radiolokatsiya [Digital radio location]. Moscow: Radio i svyaz', 2000, 428 p.
5. Kuz'min S. Z. Osnovy teorii tsifrovoy obrabotki radiolokatsionnoy informatsii [Fundamentals of the theory of digital processing of radar information]. Moscow: Sov. radio, 1974, 433 p.
6. Studer F. A., Farina A. Tsifrovaya obrabotka radiolokatsionnoy informatsii [Digital processing of radar information]. Moscow: Radio i svyaz', 1993, 320 p.
7. Vygodskiy M. Ya. Spravochnik po vysshey matematike [Higher mathematics handbook]. Moscow: Gos. izd-vo fiz.-mat. lit., 1993, 991 p.
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