The algorithm of random length sequences synthesis for frame synchronization of digital television systems

Authors

  • A.V. Sadchenko Odessа Polytechnic National University
  • O.A. Kushnirenko Odessа Polytechnic National University
  • A.V. Troyansky Odessа Polytechnic National University

DOI:

https://doi.org/10.15276/opu.3.47.2015.14

Keywords:

frame synchronization, binary synchronization sequences, white noise, autocorrelation function

Abstract

Digital television systems need to ensure that all digital signals processing operations are performed simultaneously and consistently. Frame synchronization dictated by the need to match phases of transmitter and receiver so that it would be possible to identify the start of a frame. As a frame synchronization signals are often used long length binary sequence with good aperiodic autocorrelation function. Aim: This work is dedicated to the development of the algorithm of random length sequences synthesis. Materials and Methods: The paper provides a comparative analysis of the known sequences, which can be used at present as synchronization ones, revealed their advantages and disadvantages. This work proposes the algorithm for the synthesis of binary synchronization sequences of random length with good autocorrelation properties based on noise generator with a uniform distribution law of probabilities. A "white noise" semiconductor generator is proposed to use as the initial material for the synthesis of binary sequences with desired properties. Results: The statistical analysis of the initial implementations of the "white noise" and synthesized sequences for frame synchronization of digital television is conducted. The comparative analysis of the synthesized sequences with known ones was carried out. The results show the benefits of obtained sequences in compare with known ones. The performed simulations confirm the obtained results. Conclusions: Thus, the search algorithm of binary synchronization sequences with desired autocorrelation properties received. According to this algorithm, the sequence can be longer in length and without length limitations. The received sync sequence can be used for frame synchronization in modern digital communication systems that will increase their efficiency and noise immunity.

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Author Biographies

A.V. Sadchenko, Odessа Polytechnic National University

PhD, Assoc.Prof.

A.V. Troyansky, Odessа Polytechnic National University

PhD, Assoc.Prof.

References

Мамаев, Н.С. Системы цифрового телевидения и радиовещания / Н.С. Мамаев, Ю.Н. Мамаев, Б.Г. Теряев; под ред. Н.С. Мамаева. — М.: Горячая линия – Телеком, 2006. — 254 с.

Smith, D.R. Digital Transmission Systems / D.R. Smith. — 3rd Ed. — Boston: Kluwer Academic Publishers, 2004. — 808 p.

Садченко, А.В. Повышение надежности синхронизации систем связи с кодовым разделением каналов / А.В. Садченко, В.А. Аверочкин, О.А. Кушниренко // Труды двенадцатой международной научно-практической конференции «Современные информационные и электронные технологии» (СИЭТ–2011), 23–27 мая, 2011 г., Одесса, Украина. — Одесса: Политехпериодика, 2011. — С. 191.

Алгоритм синтеза бинарных синхрокодов произвольной длины с хорошими апериодическими автокорреляционными функциями / А.В. Садченко, В.А. Аверочкин, О.А. Кушниренко, Н.А. Петрусенко // Труды тринадцатой международной научно-практической конференции «Современные информационные и электронные технологии» (СИЭТ–2012), 4–8 июня, 2012 г., Одесса, Украина. — Одесса: Политехпериодика, 2012. — С. 181.

Шпинковський, О.А. Символьна синхронізація в системах передачі інформації з амплітудно-фазоманіпульованими сигналами / О.А. Шпинковський, А.В. Садченко, М.І. Шпинковська // Пр. Одес. політехн. ун-ту. — 2009. — Вип. 1(31). — С. 102—106.

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Published

2015-11-23

How to Cite

[1]
Sadchenko, A., Kushnirenko, O. and Troyansky, A. 2015. The algorithm of random length sequences synthesis for frame synchronization of digital television systems. Proceedings of Odessa Polytechnic University. 3(47) (Nov. 2015), 97–103. DOI:https://doi.org/10.15276/opu.3.47.2015.14.

Issue

Section

Electronics. Radio engineering. Telecommunication facilities