A.D. Krayl-uk - Ph.D. (Eng.), Deputy Designer General, Radio Engineering Corporation VEGA JSC (Moscow) V.I. Merkulov - Dr.Sc. (Eng.), Professor, Honored Scientist of Russian Federation, Deputy Designer General, Radio Engineering Corporation VEGA JSC (Moscow) V.P. Kharkov - Dr.Sc. (Eng.), Professor, Chief Specialist, Radio Engineering Corporation VEGA JSC (Moscow) V.S. Chernov - Ph.D. (Eng.), Associate Professor, Leading Researcher, Radio Engineering Corporation VEGA JSC (Moscow)

The problem of optimizing the mutual spatial arrangement of receiving positions and a radio-emitting object is actual in the conduct of a radio monitoring system with a bistatic goniometer system. The method based on the concept of inverse dynamic problems is chosen as the basic method for synthesizing the control of an aerial vehicle (AV) of information support. To perform the synthesis, the choice was made of the initial dynamic model of the state of the control system, including the models of the relative motion of the information aircraft and the source of radio emission (SRE), the pilot aircraft and the SRE, and the mutual angular displacement of the two aircraft. Taking into account the generalized dynamic model of control system state, algorithms of trajectory control of informa-tion aircraft for two variants of using bistatic radio monitoring systems guaranteeing the minimization of the errors in the loca-tion of SRE are developed. The first option involves the output of an information aircraft on the perpendicular to the line of sight \"leading AV-SRE\" at a point and then flying along this perpendicular. The second option provides guidance information AV to the best orthogonal observation point, located on the perpendicular to the line of sight \"leading AV-SRE\" at a distance from the SRE at a predetermined distance. The results of the carried out mathematical simulation of the modes of guidance of an aircraft to a stationary ground-based radio-emitting object make it possible to conclude that the proposed control algorithms for information aircraft are efficient and provide a sufficiently high efficiency of the functioning of the bistatic gyro-position detection system of the SRE.

 

1. Merkulov V.I., CHernov V.S., Gandurin V.A., Drogalin V.V., Savelev A.N. Aviacionnye sistemy radioupravlenija: Uchebnik dlja voennykh i grazhdanskikh vuzov i nauchno-issledovatelskikh organizacijj / Pod red. V.I. Merkulova. M.: Izd. VVIA im. prof. N.E. ZHukovskogo. 2008. 423 s.
2. Verba V.S., Merkulov V.I., Drogalin V.V. i dr. Ocenivanie dalnosti i skorosti v radiolokacionnykh sistemakh. CH.3 / Pod red. V.S. Verby, V.I. Merkulova. M.: Radiotekhnika. 2010. 472 s.
3. Belik B.V., Belov S.G., Verba V.S. i dr. Aviacionnye sistemy radioupravlenija / Pod red. V.S. Verby i V.I. Merkulova. M.: Radiotekhnika. 2014. 376 s.
4. Patent № 2256870 (RF). Sposob upravlenija letatelnymi apparatami po kursu v uglomernojj dvukhpozicionnojj radiolokacionnojj sisteme. 2005.
5. Patent № 2262649 (RF). Sposob navedenija letatelnykh apparatov na istochnik radioizluchenija v dvukhpozicionnojj passivnojj radiolokacionnojj sisteme. 2005.
6. Patent № 2308093 (RF). Sposob upravlenija letatelnymi apparatami po kursu v uglomernojj dvukhpozicionnojj radiolokacionnojj sisteme. 2007.
7. Merkulov V.I., CHernov V.S., Kuimov A.M. Traektornoe upravlenie passivnymi dvukhpozicionnymi sistemami // Informacionno-izmeritelnye i upravljajushhie sistemy. 2008. T. 6. № 12. S. 44-60.
8. Merkulov V.I., Miljakov D.A., CHernov V.S. Traektornoe upravlenie nabljudeniem v podvizhnykh passivnykh sistemakh vozdushnogo bazirovanii // ZHurnal radioehlektroniki. 2012. № 11. http://jre.cplire.ru/jre/na/12/10/text.html.
9. Merkulov V.I., CHernov V.S. Analiz metodov navedenija dvukhpozicionnymi passivnymi sistemami vozdushnogo bazirovanija na istochniki radioizluchenija // Uspekhi sovremennojj radioehlektroniki. 2013. № 7. S. 26-40.
10. Merkulov V.I., Miljakov D.A., CHernov V.S. Gradientnye metody traektornogo upravlenija letatelnymi apparatami v dvukhpozicionnykh sistemakh navedenija vozdushnogo bazirovanija s povyshennojj tochnostju opredelenija mestopolozhenija istochnikov radioizluchenija // Informacionno-izmeritelnye i upravljajushhie sistemy. 2015. T. 13. № 5. S. 17-22.
11. Merkulov V.I., Miljakov D.A., CHernov V.S. Metody traektornogo upravlenija nabljudeniem v integrirovannykh mnogodatchikovykh dvukhpozicionnykh sistemakh radiomonitoringa vozdushnogo bazirovanija // ZHurnal radioehlektroniki. 2016. № 4. http://jre.cplire.ru/jre/na/12/10/text.html. 64 s.
12. Merkulov V.I., CHernov V.S. Traektornoe upravlenie nabljudeniem v uglomernykh dvukhpozicionnykh sistemakh pri nalichii opasnykh zon dlja poletov letatelnykh apparatov // Uspekhi sovremennojj radioehlektroniki. 2016. № 12. S. 4-11.
13. Dmitriev D.D., Zagrebelnyjj I.R., Merkulov V.I., CHernov V.S. Metody traektornogo upravlenija nabljudeniem v uglomernykh dvukhpozicionnykh sistemakh s vyvodom informacionnojj pozicii v nailuchshuju tochku mestoopredelenija radioizluchajushhejj celi // Uspekhi sovremennojj radioehlektroniki. 2017. № 1. S. 3-9.
14. KHarkov V. P. Adaptivnye algoritmy upravlenija dinamicheskimi sistemami na osnove obratnykh zadach dinamiki // Izv. RAN. Tekhnicheskaja kibernetika. 1994. № 2.
15. Krutko P. D. Obratnye zadachi dinamiki. Linejjnye modeli. M.: Nauka. 1987.
16. Krutko P. D. Obratnye zadachi dinamiki. Nelinejjnye modeli. M.: Nauka. 1988.
17. Bjushgens G. S., Studnev R. V. Dinamika samoleta. Prostranstvennoe dvizhenie. M.: Mashinostroenie. 1983.
18. Tarasenko A. M., Braga V. G., Taranenko V. T. Dinamika poleta i boevogo manevrirovanija LA. M.: VVIA im. prof. N. E. ZHukovskogo. 1984.