350 rub
Journal Achievements of Modern Radioelectronics №12 for 2018 г.
Article in number:
Hardware and software platform for developing multi-system anti-jamming navigation receivers with high-precision coordinate-time definitions
Type of article: scientific article
DOI: 10.18127/j20700784–201812–27
UDC: 621.396.963
Authors:

S.N. Kulinich – Head, Space Instrumentation Department, NPF Electron LLC (Krasnoyarsk)

E- mail: kulinich@ksc.krasn.ru

K.A. Drevin – Leading Engineer, Space Instrumentation Department, NPF Electron LLC (Krasnoyarsk)

A.J. Karneev – Leading Engineer, Space Instrumentation Department, NPF Electron LLC (Krasnoyarsk)

S.V. Kulik – Head of Sector, Space Instrumentation Department, NPF Electron LLC (Krasnoyarsk)

V.M. Vladimirov – Dr.Sc. (Eng.), Professor, Chief Research Scientist, Department of Molecular Electronics,  FIC KSC SB RAS (Krasnoyarsk)

Abstract:

The hardware-software platform developed by the authors on the basis of seven element antenna array has high tactical and technical characteristics and allows placing anti-jamming navigation receivers of almost any configuration, all known global navigation satellite systems on it. Tactical and technical characteristics of the hardware and software platform, with anti-jamming immunity of more than 100 dB, solve the main problem of navigation equipment GLONASS – reliable operation and provides reliable protection even in a complex dynamic changing noise environment.

Pages: 132-140
References
  1. Prikazthikov A., Oganesyan A., Pastukhov A. Pomekhoustoyjchivaya apparatura GLONASS/GPS promihshlennogo naznacheniya // Nauka i proizvodstvo, Sputnikovaya navigaciya. 2018. S. 1–3.
  2. Klemm R. Applications of Space-Time Adaptive Processing // The Institution of Electrical Engineers. 2004.
  3. Paulraj A.J., Papadias C.B. Processing for Wireless Communications //EEE Signal Processing Magazine. November 1997. P. 49–83.
  4. Berefelt F., Boberg B., Eklof F., Malmstrom J., Paajarvi L., Stromback P., Wirkander S. INS/GPS Integration with Adaptive Beam-forming // ION GPS/GNSS. 2003. P. 1096–1106.
  5. Ratihnskiyj M.V. Adaptaciya i sverkh razreshenie v antennihkh reshetkakh // M.: Radio i svyazj. 2003.
  6. Rowe D., Weger J., Walker J. Integrated GPS Anti-Jam Systems // ION GNSS 18th International Technical Meeting of the Satellite Division. September 2005. P. 13–16.
  7. Li J., Stoica P. Robust adaptive beamforming // Wiley-Interscience. 2005.
  8. Mukhopadhyay M., Sarkar B. K., Chakraborty A. Augmentation of anti-jam GPS system using smart antenna with a simple doa estimation algorithm // Progress In Electromagnetics Research. 2007. P. 231–249.
  9. Hattich C., Cuntz M., Konovaltsev A., Kappen G., Meurer M. Robust Multi-Antenna Acquisition in Time, Frequency and Space for a Digital Beamforming Receiver // 24th International Technical Meeting of the Satellite Division of The Institute of Navigation. September 19–23. 2011. P. 724–731.
  10. Efimenko V.S., Pastukhov A.V., Voronchikhin D.N. Novihe metodih realizacii algoritmov prostranstvenno-vremennoyj obrabotki // M.: Radiotekhnika. 2014. № 9. S. 129–134.
  11. Ratihnskiyj M.V. Analiz vliyaniya dekorrelyacii signalov v kanalakh fazirovannihkh antennihkh reshetok na ehffektivnostj adaptivnoyj prostranstvennoyj filjtracii // Radiotekhnika i ehlektronika. 2017. T. 62. № 6. S. 546–563.
  12. Voljpert A.R. O chastotnoyj zavisimosti orientacii diagrammih napravlennosti v skaniruyuthikh antennihkh reshetkakh s faziruemihmi ehlementami // Antennih. 1973. V. 17. S. 35–42.
  13. Pushin A.E., Ratihnskiyj M.V., Cheremisin O.P. O vliyanii dekorrelyacii vkhodnihkh signalov na ehffektivnostj cifrovihkh filjtrov vihdeleniya signalov na fone pomekh // Radiotekhnika i ehlektronika. 1986. T. 31. № 9. S. 1786–1791.
  14. Maljcev A.A., Pestrecov V.A., Khoryaev A.V., Maslennikov R.O. Primenenie treugoljnogo sistolicheskogo massiva dlya QR-razlozheniya kompleksnoyj matricih // Vestnik Nizhegorodskogo universiteta im. N.I. Lobachevskogo. 2007. № 3. S. 61–66.
Date of receipt: 15 ноября 2018 г.