Signal detection and parameter estimation in tracking radiotechnical systems

Authors

  • Андрей Игоревич Литвин-Попович Kharkiv National University of Radio Electronics Lenina 14, Kharkov, 61166, Ukraine

DOI:

https://doi.org/10.15587/2312-8372.2013.19560

Keywords:

radio-technical systems, detection of radio signals, tracking signal processing system

Abstract

The methods of signal processing in a radio-technical tracking system, providing detection of signals and measurement of their parameters are considered in the paper. Using a time lag of signal properties allows realizing the tracking receiving system with a small number of parallel processing channels, providing small errors of signal parameters estimation when using limited computing resources. The main purpose of the research is to study the possibilities of realization of detection-measurement tracking systems with a small number of channels, comparable by characteristics with multi-channel parallel processing systems. The simulation method and statistical processing of results were used during the study. The research results can be used in the development and modernization of radio-technical systems of information transmission and extraction. The application of tracking radio-technical systems allows more full use of computing resources of the processing system in solving the problems of detection of signals and measurement of their parameters.

Author Biography

Андрей Игоревич Литвин-Попович, Kharkiv National University of Radio Electronics Lenina 14, Kharkov, 61166

Ph.D., associate professor

Radioelectronic systems department

References

  1. Тихонов, В. И. Статистический анализ и синтез радиотехнических устройств и систем [Текст]: учеб. пособие для вузов / В. И. Тихонов, В. Н. Харисов. – М.: Радио и связь, 2004. – 608 с.
  2. Фалькович, С. Е. Оценка параметров сигнала [Текст] / С. Е. Фалькович. – М.: Сов. Радио, 1970. – 336 с.
  3. Акимов, П. С. Обнаружение радиосигналов [Текст] / П. С. Акимов и др.; под ред. А.А.Колосова. – М.: Радио и связь, 1989. – 224 с.
  4. Теоретические основы радиолокации [Текст]: учеб. пособие для вузов. / Под ред. Я. Д. Ширмана. – М.: Сов.радио, 1970. – 560 с.
  5. Nathanson, F. E. Radar design principles – signal processing and environment [Text] / F. E. Nathanson, J. P. Reilly, M. N. Cohen. – NJ: SciTech, 1999. – 724 p.
  6. Meikle, H. Modern radar systems [Text] / H. Meikle. – Boston: Artech House, 2001. – 581p. – ISBN 1-58053-294-2.
  7. Basseville, M. Detection of Abrupt Changes: Theory and Application [Text] / M. Basseville, I. Nikiforov. – Prentice-Hall, 1993. – 469 p.
  8. Purdy, R. J. Radar signal processing, [Text] / Robert J. Purdy et.al. // Lincoln Laboratory Journal. – 2000. – Vol. 12, № 2. – pp. 297-320.
  9. Литвин-Попович, А. И. Обнаружение сигналов в условиях априорной параметрической неопределенности [Текст] / А. И. Литвин-Попович // Радиотехника. – 2012. – Вып. 168. – С. 16-21.
  10. Литвин-Попович, А. И. Обнаружение и измерение параметров сигналов в параллельных системах обработки [Текст] / А. И. Литвин-Попович // Радиотехника. – Х.:ХНУРЭ, 2012. – Вып.170. – С. 125-131.
  11. Lyons, R. G. Understanding digital signal processing [Text] / Richard G. Lyons. – Prentice-Hall, 2001. – ISBN 0-201-63467-8.
  12. Литвин-Попович, А. И. Обработка радиолокационных сигналов в параллельных вычислительных системах [Текст] / А. И. Литвин-Попович // Радиотехника. – Х.:ХНУРЭ, 2011. – Вып. 166. – C. 165-172.
  13. NVIDIA® Tesla® GPU Accelerators [Электронный ресурс]. – Режим доступа: www/ URL: http://www.nvidia.com/object/personal-supercomputing.html
  14. Литвин-Попович, А. И. Использование априорной информации при обработке сигналов в метеорологических РЛС [Текст] / А. И. Литвин-Попович, С. Р. Щекин // Технологический аудит и резервы производства. – 2013. – T. 3, № 1(11). - С. 24-28.
  15. Tihonov, V. I., Harisov, V. N. (2004). Statistichesckiy analiz i sintez radiotehnicheskih ustroystv i system [Statistical analysis and synthesis of a radioelectronic devices and systems]. M.: Radio i Svyaz, 608.
  16. Falkovich, S. E. (1970). Ocenka parametrov signala [Signal parameter estimation]. M.: Sov. Radio, 336.
  17. Akimov, P. S. and others; In: Kolosov, A. A. (1989). Obnaruzhenie signalov [Signal detection]. M.: Radio i Svyaz, 224.
  18. Shirman, Ya. D. (1970). Teoreticheskiye osnovy radiolokacii: uchebnoe posobie dlya vuzov [Radar theory. Tutorial for universities]. M.: Sov.Radio, 560.
  19. Nathanson, F. E., Reilly, J. P., Cohen, M. N. (1999). Radar design principles – signal processing and environment. NJ: SciTech, 724.
  20. Meikle, H. (2001). Modern radar systems. Boston: Artech House, 581. ISBN 1-58053-294-2.
  21. Basseville, M., Nikiforov, I. (1993). Detection of Abrupt Changes: Theory and Application. Prentice-Hall, 469.
  22. Purdy, R. J. and others. (2000). Radar signal processing. Lincoln Laboratory Journal, Vol. 12, № 2, 297-320.
  23. Lytvyn-Popovych, A. I. (2012). Obnaruzhenie signalov v usloviyah apriornoy parametricheskoy neopredelennosti [Signal detection in a priori uncertainty conditions]. Radiotekhnika, vol. 168, 16-21.
  24. Lytvyn-Popovych, A. I. (2012). Obnaruzhenie i izmerenie parametrov signalov v parallelnyh sistemah obrabotki [Signal detection and parameter estimation in parallel processing systems]. Radiotekhnika, vol.170, 125-131.
  25. Lyons, R. G. (2011). Understanding digital signal processing. Prentice-Hall. ISBN 0-201-63467-8.
  26. Lytvyn-Popovych, A. I. (2011). Obrabotka radiolokazionnyh signalov v parallelnyh vychislitelnyh sistemah [Radar signal processing in parallel computing systems]. Radiotekhnika, vol.166, 165-172.
  27. NVIDIA® Tesla® GPU Accelerators. Available: http://www.nvidia.com/object/personal-supercomputing.html
  28. Lytvyn-Popovych, A. I., Shchekin, S. R. (2013). Apriori information usage in meteo radar signal processing. Technology Audit And Production Reserves, 3(1(11)), 24-28.

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Published

2013-11-28

How to Cite

Литвин-Попович, А. И. (2013). Signal detection and parameter estimation in tracking radiotechnical systems. Technology Audit and Production Reserves, 6(1(14), 30–34. https://doi.org/10.15587/2312-8372.2013.19560

Issue

Vol. 6 No. 1(14) (2013): Technology audit

Section

Technology audit

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Copyright (c) 2016 Андрей Игоревич Литвин-Попович

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