S.V. Haralgin1, B.V. Hlopov2, N.P. Kolesnikov3, A.G. Azizov4
1-4 JSC “CNIRTI named after academician A.I. Berg” (Moscow, Russia)
1-4 post@cnirti.ru
Formulation of the problem.The creation of concealed RES with reduced radar signature under conditions of radio-electronic suppression is characterized by a densely saturated signal environment, when a large number of active jammer radars are simultaneously emitting in the information space. Therefore, the relevant task is to determine a model of the information synthesized process of interaction with protected electronic devices by fluctuating masking interference emissions of EMF.
Goal. Assess the impact of all-perspective target fluctuating camouflage in aerospace information space by sounding with its radioengineering signals the electromagnetic countermeasures of active jammers signals by redirected annihilated interference under natural operating conditions in air (space) space reverberation (interference noise) interference, reflected from simulator surface space debris, swarm (low flying targets) of unmanned aerial vehicles (UAVs).
Results.The influence of fluctuating simulator by annihilated reverberation (interference noise) of reflected radio interference from the space debris to camouflage an all-angle target has been studied in the aerospace information space.
Practical significance. The considered mathematical model using a fluctuating simulator of an all-angle target in the aerospace information space of annihilated, reverberation (interference noise) reflected radio interference from the space debris, paralyze work of active jammer and electronic warfare satellite radar.
Haralgin S.V., Hlopov B.V., Kolesnikov N.P., Azizov A.G. Fluctuating simulator of an all-angle target in the aerospace information space. Radiotekhnika. 2024. V. 88. № 5. P. 89−99. DOI: https://doi.org/10.18127/j00338486-202405-11 (In Russian)
- Sozinov P.A., Andreev G.I., Tihomirov V.A., Zamarin M.E. Konceptual'nyj podhod k ocenivaniju i snizheniju radiolokacionnoj zametnosti ob’ektov. Radiojelektronnaja bor'ba. 2022. T. 3. № 1. S. 5-15. DOI: https://doi.org/10.18127/j00338486-202205-01 (in Russian).
- Andreev G.I., Zamarin M.E., Sozinov P.A., Tihomirov V.A. Konceptual'naja model' informacionnogo vzaimodejstvija radiojelektronnyh sredstv. Radiojelektronnaja bor'ba. 2021. T. 2. № 2. S. 31-41. DOI: https://doi.org/10.18127/j00338486-202112-02 (in Russian).
- Cvetkov V.V., Demin V.P., Kuprijanov A.I. Radiojelektronnaja bor'ba: radiorazvedka i radioprotivodejstvie. M.: Vuzovskaja kniga. 2019. 247 s. (in Russian).
- Kuprijanov A.I., Shustov L.N. Radiojelektronnaja bor'ba. Osnovy teorii. M.: Vuzovskaja kniga. 2011. 798 s. (in Russian).
- Turchin V.I., Cejtlin N.M., Chandaev A.K. Ob izmerenii DNA po izlucheniju istochnika v zone Frenelja pri pomoshhi go-lografii na SVCh i obrabotki na JeVM. Radiotehnika i jelektronika. 1973. T XVIII. № 4. S. 725-734 (in Russian).
- Shifrin Ja.S., Usin V.A. Ob urovne bokovogo izluchenija antenn so sluchajnymi amplitudnymi i fazovymi oshibkami. Ch. II. Antenny s prjamougol'noj aperturoj. Har'kov: Radiotehnika. 1977. S. 52-59 (in Russian).
- Mirtalibov T.A., Haralgin S.V., Kolesnikov N.P., Hlopov B.V. Metod poljarizacionnoj selekcii istochnikov radioiz-luchenija na fone imitacionnyh pomeh v fazovoj pelengacionnoj sisteme. Radiojelektronnaja bor'ba. 2021. T. 2. № 2. S 43-50. DOI: https://doi.org/10.18127/j00338486-202112-03 (in Russian).