Evaluation of noise immunity of high orbital satellite telecommunication systems with broadband noise-like sign

Authors

  • Belov Sergei P. Belgorod State University, 85, Pobedy St., Belgorod, 308015, Russia
  • Zhilyakov EG Belgorod State University, 85, Pobedy St., Belgorod, 308015, Russia
  • Raczynski SA Belgorod State University, 85, Pobedy St., Belgorod, 308015, Russia
  • Belov AS Belgorod State University, 85, Pobedy St., Belgorod, 308015, Russia
  • Belov Andrei S. Belgorod State University, 85, Pobedy St., Belgorod, 308015, Russia
  • Bukhantsov AD Belgorod State University, 85, Pobedy St., Belgorod, 308015, Russia

Keywords:

satellite telecommunication systems, linear frequency modulated signal, a function of uncertainty, noise immunity, pseudo-random sequence

Abstract

It is known, when using narrow-band signals in high orbital satellite communication systems for organizing exchange of information, the efficiency of allocated frequency and time communication channel resource usage is reduced due to the large uncertainty in the frequency caused at the Doppler Effect and changes time of received signals arrival. In this regard, currently one of the promising directions in the development of methods for constructing channel signals for use as information carriers in modern high-orbit satellite communication systems with code division of addresses, providing communication between remote subscribers in the Northern latitudes, is the use of broadband noise-like signals, which are the result of the use of special codes and new methods of spectrum expansion. However, the priority of usage of one or another signal class in these systems is largely determined by their resistance to Doppler frequency shift. In with this regard article assesses the noise immunity of high-orbit satellite telecommunication systems with code division of addresses when using a number of broadband noise-like signals with linear frequency modulation as information carriers.

References

. Varakin L.E.,1970. Theory of complex signals, Moscow,Pages:375. Available at: http://bookre.org/reader?file=405705 (accessed 14

May, 2019). (in Russian).

. Pestryakov V.B., Afanasyev V.P., Gurvich V.L. and et.1973. Noise-like signals in information transmission systems, Moscow, Pages:424. Available at: https://booksee.org/book/756964(accessed 14 May, 2019).(in Russian).

. Varakin, L.E., 1985.Communication systems with noise-like signals, Moscow,Pages:384. https://www.studmed.ru/varakin-le-sistemy-svyazi-sshumopodobnymisignalami_7cfcca93721.html(accessed 14 May, 2019).(in Russian).

. Tuzov, G.I., 1977. Statistical theory of reception of complex signals, Moscow, Pages: 400.https://bok.org/book/746414/0963ac (accessed 14 May, 2019).(in Russian).

. Borisov, V.I., 2008. Interference immunity of radio communication systems with spreading of signals by pseudo-random carrier modulation, Moscow, Pages: 512.https://b-ok.org/book/2627566/c12d23 (accessed 14 May, 2019). (in Russian).

. Dickson, R.K. 1979. Broadband systems, Moscow, Pages: 304.http://bookre.org/reader?file=726471(accessed 14 May, 2019).(in Russian).

. KochemasovV.N., BelovL.A., Okoneshnikov V.S. ,1983.Formation of signals with linear frequency modulation, Moscow, Pages: 192.https://www.twirpx.com/file/1487714 (accessed 14 May, 2019).(in Russian).

. Cook K., Bernfeld M. 1971.Radar signals, Moscow, Pages: 568.http://bookre.org/reader?file=581493 (accessed 14 May, 2019).(in Russian).

. Belov S. P., Zhilyakov E.G., Belov A. S.. Possibility of the use of a class of complex signals with chirp to transmit voice data in digital mobile communication systems. Questions of radio electronics. Ser. "Electronic computing equipment (EWT)". M., 2008, №1: 161-171 p.

. Belov S. P., Zhilyakov E. G. and et.. Method of frame synchronization of wideband signals. Scientific sheets of BelSU. Ser. History Political Science Economics Computer Science. [Belgorod State University Scientific Bulletin. History Political Science Economics Information Technologies]. 2015, 19 (216): 187-191.

. Zyuko A.G., Klovskiy, D.D. Nazarov M.V., Fink L.M., 1980. Theory of signal transmission. M., Communication, 288.http://bookre.org/reader?file=1221371 (accessed 14 May, 2019). (in Russian).

. Ipatov, VP Broadband systems and code separation of signals. Principles and applications [Text]. - Moscow: Technosphere, 2007 – 488 p https://bok.org/book/2624471/c9cefe (accessed 14 May, 2019). (in Russian).

Downloads

Published

2024-02-26

How to Cite

Belov , S. P., Zhilyakov, E. G., Raczynski, S. A., Belov, A. S., Belov, A. S., & Bukhantsov, A. D. (2024). Evaluation of noise immunity of high orbital satellite telecommunication systems with broadband noise-like sign. COMPUSOFT: An International Journal of Advanced Computer Technology, 8(06), 3217–3222. Retrieved from https://ijact.in/index.php/j/article/view/507

Issue

Vol. 8 No. 06 (2019): June

Section

Original Research Article

License

Copyright (c) 2019 COMPUSOFT: An International Journal of Advanced Computer Technology

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

©2023. COMPUSOFT: AN INTERNATIONAL OF ADVANCED COMPUTER TECHNOLOGY by COMPUSOFT PUBLICATION is licensed under a Creative Commons Attribution 4.0 International License. Based on a work at COMPUSOFT: AN INTERNATIONAL OF ADVANCED COMPUTER TECHNOLOGY. Permissions beyond the scope of this license may be available at Creative Commons Attribution 4.0 International Public License.

Similar Articles

1 2 3 4 5 6 7 8 9 10 > >> 

You may also start an advanced similarity search for this article.