Estimation of the possibilities of the combined synchronization system with open-link to minimize the dispersion of the phase error when tracking the carrier frequency under the conditions of the influence of additive noise

Authors

DOI:

https://doi.org/10.15587/2706-5448.2020.210242

Keywords:

carrier frequency synchronization, combined synchronization system, phase error variance, additive Gaussian noise.

Abstract

The object of the article is the process of evaluating the possibilities of a combined synchronization system with open (compensating) connection to minimize the phase error variance under the influence of additive Gaussian noise.

The issue of improving the quality of the phase synchronization system is a constant topical scientific task and in a number of studies is solved by including the method of developing mathematical models and creating on their basis the appropriate optimal schemes for building these systems. The final stage of development and implementation of such mathematical models in technical solutions and synchronization schemes based on them is the assessment of the limit possibilities of these schemes to minimize the variance of the phase error in different types of noise

The paper evaluates the possibilities of a combined synchronization system with open (compensating) connection to minimize the phase error dispersion under the influence of additive Gaussian noise by selecting the parameters of the components of the circuit of this connection.

In order to evaluate the work, mathematical dependencies have been developed and refined, which allow to determine the variance of the phase error under the influence of additive Gaussian noise and the corresponding algorithm for its determination is presented.

The evaluation results presented in the work showed that the value of the error variance for the combined synchronization system is much smaller than for the closed synchronization system with any choice of the parameters of the latter. The effect of reducing the phase error variance by introducing a broken link at a given level of influence depends on the noise signal level and the phase modulation index of the input signal. When using as a simple broken link a frequency discriminator included in the circuit of the combined synchronization system in parallel, the minimum dispersion of the phase error when the noise level rises to a certain critical limit is limited and this broken link loses its effectiveness.

Author Biography

Olexandr Turovsky, State University of Telecommunications, 7, Solomyanska str., Kyiv, Ukraine, 03110

PhD, Associate Professor, Head of Department

Department of Organization of Training and Certification of Postgraduate and Doctoral Students

References

  1. Boiko, Yu. M., Nochka, R. Yu. (2015). Otsiniuvannia yakisnykh pokaznykiv prystroiv synkhronizatsii syhnaliv zasobiv telekomunikatsii. Visnyk Khmelnytskoho natsionalnoho universytetu, 1, 144–155.
  2. Mucchi, L., Marabissi, D., Ranaldi, M., Del Re, E., Fantacci, R. (2004). Impact of synchronization errors and multiple access interference to the performance of UWB impulse radio systems. Eighth IEEE International Symposium on Spread Spectrum Techniques and Applications Programme and Book of Abstracts (IEEE Cat. No.04TH8738). Sydney, 477–483. doi: http://doi.org/10.1109/isssta.2004.1371746
  3. Shakhtarin, B. I. (2016). Analiz sistem sinkhronizatsii pri nalichii pomekh. Moscow: Goriachaia liniia – Telekom, 360.
  4. Glukhov, A. V. (2013). Optimizatsiia parametrov tsifrovykh filtrov vysokoskorostnogo moduliatora dlia PLC-modemov. Vestnik Tambovskogo gosudarstvennogo tekhnicheskogo universiteta, 19 (4), 751–756
  5. Lyons, R. G. (2010). Understanding Digital Signal Processing. Boston: Prentice Hall, 992.
  6. Scheers, B., Le Nir, V. A. (2010). Modified Direct-Sequence Spread Spectrum Modulation Scheme for Burst Transmissions. Military Communications and Information Systems Conference (MCC’2010). Wroclaw, 366–373.
  7. Turovskyi, O. L. (2019). Minimizatsiia dyspersii fazovoi pomylky v systemakh fazovoi synkhronizatsii zamknutoho typu v rezhymi stezhennia za nesuchoiu chastotoiu. Visnyk inzhenernoi akademii, 4, 22–27.
  8. Kucher, D. B., Makohon, V. P. (2013). Vidnovlennia nesuchoi pry koherentnii demoduliatsii syhnalu z bezperervnoiu fazoiu zasobiv zviazku. Nauka i tekhnika Povitrianykh Syl Zbroinykh Syl Ukrainy, 2 (11), 148–149.
  9. Kay, S. (1989). A fast and accurate single frequency estimator. IEEE Transactions on Acoustics, Speech, and Signal Processing, 37 (12), 1987–1990. doi: http://doi.org/10.1109/29.45547
  10. Tikhomirov, A. V., Omelianchuk, E. V., Semenova, A. Iu. (2019). Sinkhronizatsiia v sistemakh s priamym rasshireniem spektra. Inzhenernii vestnik Dona, 9, 31–35.
  11. Le Nir, V., van Waterschoot, T., Moonen, M., Duplicy, J. (2009). Blind CP-OFDM and ZP-OFDM Parameter Estimation in Frequency Selective Channels. EURASIP Journal on Wireless Communications and Networking, 2009 (1). doi: http://doi.org/10.1155/2009/315765
  12. Turovsky, O., Khlaponin, Y., Muhi-Aldin, H. M. et. al. (2020). Combined system of phase synchronization with increased order of astatism in frequency monitoring mode. CEUR Workshop Proceedings, 2616 (1), 53–62.
  13. Horowitz, P., Hill, W. (2015). The Art of Electronics. Cambridge: Cambridge University Press, 1220.
  14. Sklar, B. (2017). Digital Communications: Fundamentals and Applications Second Edition. Prentice Hall, 1104.
  15. Bondarenko, V. N. (2015). Pomekhoustoichivost priema spektralno – effektivnykh shumopodobnykh signalov. Krasnoiarsk: Sibirskii Federalnii universitet, 160.
  16. Leman, E. (1991). Teoriia tochechnogo otsenivaniia. Moscow: Nauka, 448.
  17. Zalmanzon, L. A. (1989). Preobrazovaniia Fure, Uolsha, Khaara i ikh primenenie v upravlenii, sviazi i drugikh oblastiakh. Moscow: Nauka, 496.
  18. Misrikhanov, M. Sh. (2003). Invariantnoe upravlenie mnogomernymi sistemami. Moscow: Energotomizdat, 236.
  19. Marey, M., Steendam, H. (2007). Analysis of the Narrowband Interference Effect on OFDM Timing Synchronization. IEEE Transactions on Signal Processing, 55 (9), 4558–4566. doi: http://doi.org/10.1109/tsp.2007.896020

Downloads

Published

2020-08-31

How to Cite

Turovsky, O. (2020). Estimation of the possibilities of the combined synchronization system with open-link to minimize the dispersion of the phase error when tracking the carrier frequency under the conditions of the influence of additive noise. Technology Audit and Production Reserves, 4(1(54), 16–22. https://doi.org/10.15587/2706-5448.2020.210242

Issue

Vol. 4 No. 1(54) (2020): Industrial and technology systems

Section

Electrical Engineering and Industrial Electronics: Original Research

License

Copyright (c) 2020 Olexandr Turovsky

Creative Commons License

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

The consolidation and conditions for the transfer of copyright (identification of authorship) is carried out in the License Agreement. In particular, the authors reserve the right to the authorship of their manuscript and transfer the first publication of this work to the journal under the terms of the Creative Commons CC BY license. At the same time, they have the right to conclude on their own additional agreements concerning the non-exclusive distribution of the work in the form in which it was published by this journal, but provided that the link to the first publication of the article in this journal is preserved.