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Telecommunications and Radio Engineering
SJR: 0.202 SNIP: 0.2 CiteScore™: 0.23

ISSN Imprimir: 0040-2508
ISSN On-line: 1943-6009

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Telecommunications and Radio Engineering

DOI: 10.1615/TelecomRadEng.v77.i17.20
pages 1497-1515


V. V. Naumenko
National Aerospace University (Kharkiv Aviation Institute), 17, Chkalov St., Kharkiv, 61070, Ukraine
G. A. Proskura
National Aerospace University (Kharkiv Aviation Institute), 17 Chkalov St., Kharkiv 61070, Ukraine
A. V. Totsky
National Aerospace University (Kharkiv Aviation Institute), 17, Chkalov St., Kharkiv, 61070, Ukraine
Karen O. Egiazarian
Tampere University, Tampere, 33720, Finland
O. O. Polotska
V. Karazin National University of Kharkiv, 4 Svobody Sq., Kharkiv 61077, Ukraine


A novel bispectrum-based approach is suggested for exploiting in communications over fading channel that is encountered in mobile radio networks often enough. Binary bispectral code generated through multi-frequency triplet-signal pulses is developed to combat fading. Distinctive features are given in the triplet-signals in the form of phase coupling. Decision making rule is based on the extraction the maximum peak values evaluated in the form of triplet-signal bispectrum magnitudes. The purpose of this paper is to examine the performance of the binary communication system operating under multipath Rayleigh and Rician radio channels, as well as under influence of Gaussian noise, random signal translations and Doppler frequency shifts. The probability of bit error at the decoder output is determined by computer simulations. Comparison of the performances provided by suggested bispectral code and known frequency redundant code has been accomplished. Computer simulation results illustrate less sensitivity of the proposed bispectral code to the fading, additive Gaussian noise, random signal translations and Doppler frequency shifts. For the radio communication channels considered in this paper, bispectrum-based technique under identical initial conditions provides better performance as compared with known multi-frequency and frequency redundant methods.


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