Reseach of methods of noise-immune coding for meteor data telecommunication system

Authors

  • Александр Васильевич Воргуль Kharkiv National University of Radio Electronics Lenina ave, 14, Kharkov, 61166, Ukraine
  • Юсиф Хардан Сулейман Kharkiv National University of Radio Electronics Lenina ave, 14, Kharkov, 61166, Ukraine

DOI:

https://doi.org/10.15587/1729-4061.2013.14844

Keywords:

noise-immune coding, direct error correction, AWGN, meteor data telecommunication system

Abstract

The article presents the study of methods of the noise-immune coding and decoding for their further use in a digital transmission system (DTS). This article is the next stage in the development of the DTS and the final step will be the review of the whole system in order to improve overall performance. Usually in modern literature, the modulation and coding are considered together, making it difficult to select and justify the method of modulation in the specific conditions of the meteor channel.

The objective of the work was the complete description of the coding and decoding algorithms, the definition of their complexity, parameters and characteristics. The method of the study was a detailed mathematical description and computer simulation. The problem was considered from the point of view of the system as a whole. The work was performed using a computer simulation.

The main results of the work were a synthesis and analysis of the known algorithms, recommendations for the reasonable choice of the method and the coding algorithm for its further use in the DTS. The dependences of the number of bit errors on the signal / noise ratio were presented. 

Author Biographies

Александр Васильевич Воргуль, Kharkiv National University of Radio Electronics Lenina ave, 14, Kharkov, 61166

PhD, Associate Professor

Department of Bases of Radio Engineering

Юсиф Хардан Сулейман, Kharkiv National University of Radio Electronics Lenina ave, 14, Kharkov, 61166

Post-graduate

Department of Bases of Radio Engineering

References

  1. Дж. Прокис. Цифровая связь. [Текст] / Дж Прокис . – М.: Радио и связь, 2000. – 800 с.
  2. Б. Скляр. Цифровая связь. Теоретические основы и практическое применение. [Текст] / Б Скляр. Изд.2-е, испр. :Пер. с англ.— М.: Издательский дом «Вильямс», 2007.— 1104 с .
  3. Jr. C. R. Johnson, Software Receiver Design. Build Your Own Digital Commu-nications. System in Five Easy Steps. [Текст] / C. R. Johnson, Jr., W. A. Sethares, A. G. Klein –– Cambridge: Cambridge University Press, 2011. –– 465 p.
  4. А.В. Воргуль Метеорная система передачи информации: пути к модернизации [Текст] / А.В. Воргуль,
  5. Ю.Х.Сулейман. – // Радиотехника. 2011. Вып. 165.
  6. Ю. Сулейман. Модернизация метеорной системы передачи информации [Текст] / Ю. Сулейман, А. Воргуль.: "Актуальні задачі сучасних технологій": збірник тез доповідей міжн.наук.-технічн.конф. 19–20 грудн. 2012р. / Відп. ред. Дзюра В.О м. Тернопіль – Тернопіль,: Видавництво ТНТУ ім. Івана Пулюя, 2012.
  7. А.В. Воргуль Исследование цифровых методов модуляции для метеорных систем передачи информации [Текст] / А.В. Воргуль, Ю.Х. Сулейман // Восточно-Европейский журнал передовых технологий 2/9 (62) 2013 сс.24-28
  8. А.В. Воргуль Адаптация цифровой системы передачи информации к метеорному каналу [Текст] / А.В. Воргуль, Ю.Х. Сулейман // Вісник НТУ «ХПІ». 2013. – №1 (977). С 42-45
  9. В.Вишневский С.Портной И.Шахнович. Энциклопедия Wimax. Путь к 4G [Текст] – М.:Техносфера, 2009. – 472 с.
  10. Р. Морелос-Сарагоса Искусство помехоустойчивого кодирования. Методы, алгоритмы, применение. [Текст] – М.: Техносфера, 2005. – 320 с.
  11. R.J. McEliece The Guruswami-Sudan Decoding Algorithm for Reed-Solomon Codes [Текст] // IPN Progress report 42-153. May 15, 2003.
  12. John G. Proakis Contemporary Communication Systems using Matlab [Текст] / John G. Proakis, Masoud Salehi – Boston:PWS Publ.Comp, 1997. – 427 p.
  13. Варагузин В. Вблизи границы Шеннона [Текст] / В. Варагузин – // Телемультимедиа, июнь 2005, сс 3-10.
  14. Proakis J. (2000) Digital communication. [Text] – M.: Radio and Communication, . – 800 p.
  15. Sklar B. Digital communication. Theoretical basis and practical application. [Text] / B. Sklar – M.: Publishing house "Williams", 2007. – 1104p.
  16. Johnson, Jr. C. R. Software Receiver Design. Build Your Own Digital Communications. System in Five Easy Steps. [Text] / Johnson, Jr. C. R., Sethares W. A., Klein A. G. - Cambridge: Cambridge University Press, 2011. - 465 p.
  17. Meteor Burst Channel Telecommunication System: a way to modernization [Text] / A. Vorgul, Yu.H.Suleyman. - // Radio. 2011. No. 165.
  18. Ju. Sulaiman, A. Vorgul. Modernization Meteor Burst Telecommunication System: "Actual problems of modern technology": book of abstracts internat. sci.-techn. conf. 19-20 December. 2012. / Head Ed.. Dziura V. Ternopil - Ternopil: Publishing TNTU, 2012.
  19. A. Vorgul, Yu Sulaiman Research of Digital Modulation Methods for Meteor Data Telecommunication System //Eastern European Journal of Enterprise Technologies, 2/9 (62), 2013 pp. 24-28
  20. A. Vorgul, Yu. Sulaiman Adaptation of Digital Data Communication System for Meteor Channel // News NTU "KhPІ." 2013. - № 1 (977). pp 42-45
  21. V. Vishnevsky, S. Portnoy, I Shachnovich. Encyclopedia of WiMax. Path to 4G – – M. Thechnosfera, 2009. 472 p
  22. R. Morelos- Zaragosa. The Art of Error Correction Coding. Trans from eng. – M. Thechnosfera, 2005. 320 p
  23. R.J. McEliece The Guruswami-Sudan Decoding Algorithm for Reed-Solomon Codes // IPN Progress report 42-153. May 15, 2003.
  24. John G. Proakis Contemporary Communication Systems using Matlab / John G. Proakis, Masoud Salehi – Boston:PWS Publ.Comp, 1997. – 427 p.
  25. Varaguzin B. Near the Shannon boundary / Varaguzin B. - / / Telemultimedia, June 2005, pp. 3-10.

Published

2013-06-19

How to Cite

Воргуль, А. В., & Сулейман, Ю. Х. (2013). Reseach of methods of noise-immune coding for meteor data telecommunication system. Eastern-European Journal of Enterprise Technologies, 3(9(63), 23–27. https://doi.org/10.15587/1729-4061.2013.14844

Issue

Section

Information and controlling system