Zhurnal Radioelektroniki - Journal of Radio Electronics. eISSN 1684-1719. 2023. №7
Contents

Full text in Russian (pdf)

Russian page

 

DOI: https://doi.org/10.30898/1684-1719.2023.7.11

 

METHOD FOR DIFFERENTIATION OF COORDINATE-INFORMATIVE PARAMETERS OF ADDITIVE COMPONENT SIGNALS WITH COMBINATION OF CARRIER FREQUENCIES ON THE BASIS OF SPECTRUM CONVOLUTION

 

A.S. Bosyy 1, V.V. Pechurin 2, R.R. Saniev 1, S.S. Semenyuk 2

 

1 Military University of Radio Electronics,

162622, Vologda region, Cherepovets city, Sovetsky avenue, 126

2 Military Space Academy named after A.F. Mozhaisky,

197198, St. Petersburg, st. Zhdanovskaya, 13

 

The paper was received June 28, 2023.

 

Abstract. The article presents a method for distinguishing the coordinate-informative parameters of additive component signals with the combination of carrier frequencies based on spectrum convolution in the geolocation of subscriber terminals of illegitimate users of the satellite repeater resource. A qualitative assessment of the probabilistic characteristics of the developed method was made, on the basis of which the boundary conditions for the applicability of this method were determined. The results obtained on the basis of simulation modeling can be used for geolocation of subscriber terminals of illegitimate users in satellite communication systems with the reuse of the frequency resource of the repeater satellite using the technology of combining carrier frequencies.

Key words: coordinate-informative parameter, co-carrier signals, spectrum convolution.

Corresponding author: Saniev Ruslan Rifovich, srr35@mail.ru

References

1.     Vakhrusheva A.A. Real-time positioning technologies. Vestnik Sibirskogo gosudarstvennogo universiteta geosistem i tekhnologii [Bulletin of the Siberian State University of Geosystems and Technologies]. V.22. № 9. 2017. Том 22. P. 170 177. URL: https://elibrary.ru/item.asp?id=17732844 (In Russian)

2.     GOST R ISO/IEC 24730-1-2017. Information technology. Real-time locating systems (RTLS). Part 1. Application programming interface (API): introduced for the first time: introduction date 2017-06-09. Moscow: Standartinform: 2017. URL: https://meganorm.ru/Index2/1/4293745/4293745356.htm (In Russian)

3.     Dankenberg M. Paired Carrier Multiple Access (PCMA) for Satellite Communications. Proceeding of Pacific Telecommunications Conference. 1998. URL: https://doi.org/10.2514/6.1998-1398

4.     Volkov S.A. Application of the method of joint estimation in the conduct of radio monitoring of signals with the combination of carriers in satellite communication systems. Telecommunications. 2010. N.7. P. 24-31. URL: https://swsu.ru/tcom/ (In Russian)

5.     Eremeev I. I.Yu., Semenyuk S.S., Saniev R.R., Peredrii A.V. Geolocation of earth stations of satellite communications by the Doppler method based on emissions of a repeater satellite under conditions of uncertainty of the carrier frequency rating. Nauchno-tekhnicheskiy zhurnal «Voprosy oboronnoy tekhniki Seriya 16. Tekhnicheskiye sredstva protivodeystviya terrorizmu» [Scientific and technical journal «Issues of defense technology Series 16. Technical means of countering terrorism»] R. (167-168). N. 5-6. 2022. P. 3-12. URL: http://vot16.ru/arhiv_vot/2022/vypusk_167_-_168 (In Russian)

6.     Divulsky M.V., e.a. Sposob opredeleniya mestopolozheniya zemnoi stantsii sputnikovoi svyazi po retranslirovannomu signal [Method for determining the location of an earth station of satellite communications by a relayed signal]. Patent RF, no. 2749456, 2021.

7.     Abakumov A.N., Semenyuk S.S. Investigation of the influence of the geometric configuration of a difference-range system on the accuracy of determining the location of subscriber terminals of satellite communication systems. Trudy Voenno-kosmicheskoi akademii imeni A.F, Mozhaiskogo [Proceedings of the A.F. Mozhaisky Military Space Academy]. 644. -2014. P. 40-50. URL: https://www.elibrary.ru/item.asp?id=22968993 (In Russian)

8.     Abakumov A.N., Saniev R.R., Semenyuk S.S., Shilovsky E.Yu. Model of the observed additive mixture of subscriber signals with the combination of carrier frequencies under conditions of dynamic change in the mutual spatial position of the elements of the satellite communication system. Elektromagnitnyye volny i elektronnyye sistemy [Electromagnetic waves and electronic systems]. V. 29. N. 4. 2023. P. 41-48. https://doi.org/10.18127/j5604128-202303-07 (In Russian)

9.     Eremeev I.Yu., Teremov A.P. Detection of signals from BPSK based on local convolution of the spectrum. Proceedings of the ⅩⅤⅠⅠ Interuniversity military scientific conference. Cherepovets.: 2006. P. 83-85. (In Russian)

10. Paley A.S. Methods for recognizing radio emissions from satellite repeaters with superposition of spectra using the «carrier-in-carrier» technology. Sbornik dokladov ⅩⅩ mezhvuzovskoy voyenno-nauchnoy konferentsii [Collection of reports ⅩⅩ interuniversity military scientific conference]. Cherepovets: VA MO RF (branch, Cherepovets, Vologda region).2012. (In Russian)

11. Zamarin A.I. Obnaruzhenie i analiz signalov slozhnoj struktury [Detection and analysis of complex signals]. Saint Petersburg, Ministerstvo oborony Rossijskoj Federacii. 1996. 552 p. (In Russian)

12. Peredrii A.V., Saniev R.R., Semenov K.V., Semenyuk S.S. Technique for fstimating the frequency shift of signals with carrier frequency alignment based on a priori information about the link layer synchronization combination. Zhurnal radioelektroniki [Journal of Radio Electronics]. N. 6. 2022. https://doi.org/10.30898/1684-1719.2022.6.4 (In Russian)

13. Bosy A.S., Utkin V.V., Ovcharenko K. L. [and etc.]. Model of changes in the physical parameters of the radio signal, taking into account the influence of the communication channel based on approximation under the influence of additive white noise. Sistemy sinkhronizatsii, formirovaniya i obrabotki signalov [Synchronization, signal generation and processing systems]. V. 11. N. 1. 2020. P. 20-27. URL: https://www.elibrary.ru/download/elibrary_42667211_53001534.pdf (In Russian)

14. Yusupov R.M. Statisticheskie metody obrabotki rezul'tatov nablyudenii [Statistical methods for processing the results of observations]. Moscow, Ministerstvo oborony SSSR Publ. 1984. 786 p. (In Russian)

15. Abakumov A.N., Bosy A.S., Eremeev I.Yu., Peredrii A.V. Clustering Method of Time Bursts of a Group Signal in the Space of Non-Energy Parameters Based on Reference Trajectory Approximation in Radio Monitoring of Satellite Communication Systems with TDVR. Trudy Voenno-kosmicheskoi akademii imeni A.F, Mozhaiskogo [Proceedings of the A.F. Mozhaisky Military Space Academy]. 667. –2017. P. 57-65. URL: https://www.elibrary.ru/item.asp?id=38566717 (In Russian)

For citation:

Bosy A.S., Pechurin V.V., Saniev R.R., Semenyuk S.S. Method for differentiation of coordinate-informative parameters of additive component signals with combination of carrier frequencies on the basis of spectrum convolution. Zhurnal radioelektroniki [Journal of Radio Electronics] [online]. 2023. №7. https://doi.org/10.30898/1684-1719.2023.7.11 (In Russian)