D.V. Zakomoldin1, A.V. Bogdanov2, A.A. Kuchin3, S.G. Kurmojarov4

1–4 Military Academy of Aerospace Defense named after Marshal of the Soviet Union G.K. Zhukov (Tver, Russia)
 

In the article, using the example of developing a method for sequential qualitative-quantitative optimization of pointing a pair of interceptors that solve various tactical tasks at an air target, minimizing the combined quality functional, one of the possible approaches to solving the problem of taking into account indicators of various nature (qualitative and quantitative) when optimizing military systems is proposed.

When solving this problem, a promising way to increase the efficiency of group actions of fighter-interceptors is substantiated, which consists in distributing tasks between the interceptors of the group and taking into account the distributed tasks in the guidance process.

Within the framework of this approach, as part of the general view of the objective function, a particular quality functional has been developed, which takes into account, when optimizing by quantitative performance indicators, the results of optimization by qualitative indicators by introducing a tactical purpose matrix into it.

In addition, in the article, based on a local version of the mathematical apparatus of the statistical theory of optimal control, a general form of control signals for a pair of interceptors solving various tactical problems is synthesized, containing elements of a tactical purpose matrix, which, depending on the results of the tactical purpose, is converted into particular versions of the general solution.

In addition, the workability of the proposed approach was evaluated on the basis of simulation.

Zakomoldin D.V., Bogdanov A.V., Kuchin A.A., Kurmojarov S.G. Method for sequential qualitative-quantitative optimization of guidance for a pair of fighter-interceptors, minimizing the combined quality functional. Achievements of modern radioelectronics. 2023. V. 77. № 3. P. 64–76. DOI: https://doi.org/10.18127/j20700784-202303-06 [in Russian]

1. Informatsionno-izmeritel'nye i upravlyayushchie radioelektronnye sistemy i kompleksy. Monografiya. Pod red. V.S. Verby. M. Radiotekhnika. 2020. [in Russian]
2. Merkulov V.I., Savel'ev A.N. Radioelektronnye sistemy upravleniya istrebiteley shestogo pokoleniya. Ch. 1. Podkhody k razrabotke. Problemy optimizatsii. Uspekhi sovremennoy radioelektroniki. 2022. T. 76. № 8. S. 5–16. DOI: https://doi.org/10.18127/j20700784-202208-01. [in Russian]
3. Verba V.S. Printsipy postroeniya perspektivnykh bortovykh RLS: vozmozhnosti i ogranicheniya. Radiotekhnika. 2019. T. 83. № 5 (1). S. 11–24. DOI: 10.18127/j00338486-201905(I)-03. [in Russian]
4. Kompleksy s bespilotnymi letatel'nymi apparatami. V 2-kh kn: Kn. 2. Robototekhnicheskie kompleksy na osnove BLA. Monografiya. Pod red. V.S. Verby, B.G. Tatarskogo. M. Radiotekhnika. 2016. [in Russian]
5. Zakomoldin D.V., Bogdanov A.V. Metod optimizatsii upravleniya takticheskim naznacheniem istrebiteley v gruppe v zavisimosti ot slozhivsheysya vozdushnoy tselevoy obstanovki. Uspekhi sovremennoy radioelektroniki. 2022. T. 76. № 1. S. 31–42. DOI: https://doi.org/10.18127/j20700784-202201-02. [in Russian]
6. Bogdanov A.V., Zakomoldin D.V. Metod navedeniya istrebiteley s raspredeleniem mezhdu nimi zadach podavleniya i porazheniya vozdushnoy tseli. Radiotekhnika. 2021. T. 85. № 2. S. 133–146. DOI: 10.18127/j00338486-202102-18. [in Russian]
7. Zakomoldin D.V., Bogdanov A.V., Bulov V.A. Traektornoe upravlenie dvukhpozitsionnoy sistemoy v sostave udarnogo istrebitelya i istrebitelya prikrytiya, obespechivayushchee effektivnoe reshenie zadach kazhdym iz nikh. Radiotekhnika. 2021. T. 85. № 9. S. 65–76. DOI: https://doi.org/10.18127/j00338486-202109-06. [in Russian]
8. Zakomoldin D.V., Bogdanov A.V., Bulov V.A. Metod navedeniya gruppy istrebiteley s uchetom kharaktera reshaemykh imi zadach. Tekhnika i tekhnologii. Sibirskiy federal'nyy universitet. Krasnoyarsk: BIK SFU. 2021. T. 14. № 7. [in Russian]
9. Aviatsionnye sistemy radioupravleniya. T. 1. Printsipy postroeniya sistem radioupravleniya. Osnovy sinteza i analiza. Pod. red. A.I. Kanashchenkova i V.I. Merkulova. M.: Radiotekhnika. 2003. [in Russian]
10. Aviatsionnye sistemy radioupravleniya. T. 3. Sistemy komandnogo radioupravleniya. Avtonomnye i kombinirovannye sistemy navedeniya. Pod. red. A.I. Kanashchenkova i V.I. Merkulova. M.: Radiotekhnika. 2004. [in Russian]
11. Merkulov V.I., Verba V.S., Il'chuk A.R. Avtomaticheskoe soprovozhdenie tseley v RLS integrirovannykh aviatsionnykh kompleksov. Teoreticheskie osnovy. RLS v sostave integrirovannogo aviatsionnogo kompleksa. T. 1. Monografiya v 3-kh tomakh. Pod. red. V.S. Verby. M.: Radiotekhnika. 2018. [in Russian]
12. Sistemy radioupravleniya. Kn. 4. Optimizatsiya algoritmov upravleniya. Monografiya pod red. V.I. Merkulova. M.: Radiotekhnika. 2018. [in Russian]
13. Verba V.S. Optimizatsiya upravleniya bespilotnymi letatel'nymi apparatami, obespechivayushchaya ikh soglasovannoe dvizhenie po marshrutu s zadannoy topologiey. Radiotekhnika i elektronika. M.: OOO «Akademkniga». 2022. T. 67. № 1. [in Russian]
14. Bogdanov A.V., Zakomoldin D.V., Bulov V.A. Otsenka effektivnosti gruppovykh deystviy istrebiteley pri sovmestnom navedenii atakuyushchikh istrebiteley i istrebiteley prikrytiya. Tekhnika i tekhnologii. Sibirskiy federal'nyy universitet. Krasnoyarsk: BIK SFU. 2022. T. 15. № 1. [in Russian]