Radiotekhnika
Publishing house Radiotekhnika

"Publishing house Radiotekhnika":
scientific and technical literature.
Books and journals of publishing houses: IPRZHR, RS-PRESS, SCIENCE-PRESS


Тел.: +7 (495) 625-9241

 

Increasing the efficiency of satellite communication systems by optimizing the parameters of the ground stations

Keywords:

V.M. Artjushenko – Dr. Sc. (Eng.), Professor, Head of Department, Financial and Technological Academy (Korolyov, Moscow region) E-mail: artuschenko@mail.ru T.S. Abbasova – Ph. D. (Eng.), Associate Professor, Financial and Technological Academy (Korolyov, Moscow region) E-mail: abbasova_univer@mail.ru B.A. Kucherov – Post-graduate Student, Financial and Technological Academy (Korolyov, Moscow region) E-mail: boris.ku4erov@gmail.com


The article considered increasing the efficiency of using the method of multiple access with frequency-code division by applying the methods of adjustment of power and transmission rate of the ground stations. The benefits of using multiple access with frequency-code division as well as the need to use the methods of adjustment of power and transmission rate of the ground stations to increase the efficiency of using a repeater are noted. The factors influencing efficiency of using energy of repeater are shown. The concepts of adjustment of power and transmission rate of the ground stations working through one repeater channel in multiple access with frequency-code division mode are developed. The basic energy relations and noise immunity in such system are considered. A general expression for allowable power ratio of external interference at the repeater input falling within the signal spectrum and signal depending on the required reception quality defined by the signal ratio to total noise power spectral density and interference at the input of demodulator decision device of the ground station and other parameters of the satellite communication lines is derived. Expression for calculation the allowable value of exceeding external noise operating on ground receiver input above repeater signal are derived. Expression of information transmission rate through other satellite communication line parameters is presented. It was revealed that in the absent of noise or other stations in the band it is possible to reduce the ground stations power to a certain limit almost without losing noise immunity. In the presence of intentional interference it is necessary to reduce the ground station power to the value equal the sum of effective isotopic radiated power of the ground stations and protection rate exceeding the power of acting interference. It was defined that the limit to which effective isotopic radiated power of the ground station can be reduced at a specified noise immunity without reducing the information transmission rate is almost independent of the ground station reactance factor. It is shown that when satellite transmission facilities working through repeater in signal direct relay mode, adjustment of ground station power allow to reduce energy costs with a slight decreasing relative noise immunity or information transmission rate. As a criterion of optimization of energy costs for a given directions noise immunity can be selected the criterion of minimum total ground stations power with specified percent of reduction of information transmission rate in regard to the maximum rate reached at maximum values of transmitter power. When optimizing the energy costs for a given information transmission rate as a criterion can be selected criterion of minimum total ground station power with specified percent of reduction of noise immunity in regard to its maximum values reached at maximum values of transmitter power.
References:

 

  1. TIIEHR. Seti sputnikovojj svjazi (tematicheskijj vypusk). 1984. T. 72. № 11. S. 22−27.
  2. Kantor L.JA., Timofeev V.V. Sputniki svjazi i problemy GO. M.: Radio i svjaz. 1987. 167 s.
  3. Gungor V.C., Lambert F.C. A survey on communication networks for electric system automation // Computer Networks. 2006. T. 50. № 7. S. 877−897.
  4. Artjushenko V.M., Abbasova T.S., Kucherov B.A. Sovremennye napravlenija razvitija korporativnykh setejj sputnikovojj svjazi // Dvojjnye tekhnologii. 2014. № 3(68). S. 67−72.
  5. Artjushenko V.M., Kucherov B.A. Informatizacija upravlenija gruppirovkojj kosmicheskikh apparatov // Prikladnaja informatika. 2013. № 6(48). S. 6−14.
  6. Ljudvig V.A., CHudnov A.M. Optimalnoe upravlenie skorostju peredachi informacii v nestacionarnykh radiolinijakh // Radioehlektronika. 1982. T. 25. № 4. S. 83−84.
  7. Wu W.W., Wu M.U. Simple Digital Satellite Channel Modeling with Bandwidth, Capacity and Efficiency Evaluations // International Workshop on Satellite and Space Communications. IWSSC-2007. 2007. P. 11−14.
  8. Pakhomov I.S., Postjushkov V.P. Nepreryvnoe upravlenie moshhnostju izluchenija peredatchika v radiolinii s zamiranijami signalov // Radiotekhnika. 1981. T. 36. № 4. S. 89−93.
  9. Artuschenko V.M., Kucherov B.A. Modeling transmission rate of ground stations when working as part of a meshed network // Austrian Journal of Technical and Natural sciences. 2014. № 7−8. P. 96−99.
  10. Artjushenko V.M., Kucherov B.A. Povyshenie operativnosti beskonfliktnogo upravlenija gruppirovkojj kosmicheskikh apparatov v uslovijakh resursnykh ogranichenijj // EHlektrotekhnicheskie i informacionnye kompleksy i sistemy. 2013. T. 9. № 3. S. 59−66.
  11. Pratt T., Bostian C.W., Allnutt J.E. Satellite Communications. Wiley. 2002. 560 p.
  12. Adaptivnye filtry / Pod red. K.F.N. Kouehna i P.M. Granta. Per. s angl. M.: Mir. 1988. 392 s.

 

June 24, 2020
May 29, 2020

© Издательство «РАДИОТЕХНИКА», 2004-2017            Тел.: (495) 625-9241                   Designed by [SWAP]Studio