Estimation of the required energy for a channel of high-precision phase direction finding of low-earth orbit space debris based on large scale antenna array

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Abstract

To solve the problem of radar observations of small-sized space debris of natural and artificial origin, a multi-antenna distributed structure based on adaptive antenna arrays is proposed. A method for estimating noise errors of the phase method of low-Earth orbit space debris bearing for a channel of high-precision phase direction finding based on elements of a multi-antenna field is presented. The results obtained characterize the potential accuracy of the system. Based on the specified dispersion of phase fluctuations, the required signal-to-noise ratio at the input of the device is determined according to the proposed method.

About the authors

A. I. Baskakov

National Research University “Moscow Power Engineering Institute”

Email: KomarovALA@mpei.ru
Russian Federation, Krasnokazarmennaya, 14, build 1, Moscow, 111250

А. А. Komarov

National Research University “Moscow Power Engineering Institute”

Author for correspondence.
Email: KomarovALA@mpei.ru
Russian Federation, Krasnokazarmennaya, 14, build 1, Moscow, 111250

P. E. Shimkin

National Research University “Moscow Power Engineering Institute”

Email: KomarovALA@mpei.ru
Russian Federation, Krasnokazarmennaya, 14, build 1, Moscow, 111250

References

  1. Dewdney P.E., Hall P.J., Schilizzi R.T., Lazio T.J.L.W. // Proc. IEEE. V. 97. № 8. P. 1482. https://doi.org/10.1109/JPROC.2009.2021005
  2. Левитан Б.А., Толкачев А.А. // Радиотехника. 2009. № 10. С. 63.
  3. Mehrholz D. // ESA SD-01: Proc. First European Conf. on Space Debris. Darmstadt, 05–07 April 1993. Р. 355.
  4. Beusch J.U., Pensa A.F., Zuemdorfer B.W. // ESA SD-01: Proc. First European Conf. on Space Debris. Darmstadt. 05–07 April 1993. Р. 53.
  5. Нефедов С.И. // Труды XVII междун. научно-технич. конф. “Радиолокация, навигация, связь”. Воронеж, 2011. Т. 3. С. 1697.
  6. Нефедов С.И. // Наука и образование. 2011. № 11. С. 8.
  7. Радиоинтерферометрия и новые технологии в приложении к космической связи, навигации и управлению космическими аппаратами: Сб. ст. / Под ред. В.Г. Грачева. М., 2022.

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