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Journal Radioengineering №9 for 2014 г.
Article in number:
The temporary accumulation algorithm for monitoring of the GLONASS signals
Authors:
V.N. Kharisov - Dr.Sc. (Eng.), professor OJSC «VNIIR-Progress»
A.V. Pel-tin - Ph.D. (Eng.), NII RET Bauman Moscow State Technical University
Abstract:
This article discusses the temporary accumulation algorithm applied to problems of monitoring and quality control off the navigation satellites GLONASS signals. The proposed algorithm allows to work by increasing the signal/noise ratio in the counting exercise recovery waveform elements or code sequence off the navigation satellites GLONASS signals. Method temporary storage based on a combination of the same signal elements (elements of the same shape) transmitted at different instants and based on the fact that the time waveform at different time intervals repeats. The corresponding energy gain (increase in signal / noise ratio) at the same time is proportional to the accumulation. The proposed algorithm in the article has been approved temporary storage when receiving navigation satellites GLONASS signals from large aperture reflector antenna with a gain in the frequency range 35 dB L1 and omnidirectional antenna with a gain of 3 dB. The results of shape recovery and elements of the code sequence of navigation satellites GLONASS signals.
Pages: 119-124
References

  1. Mitelman A.M. Signal Quality Monitoring for GPS Augmentation System. Ph.D. thesis, Stanford University, December 2004.
  2. Phelts R.E. Multicorrelator Techniques for Robust Mitigation of Threats to GPS Signal Quality. Ph.D. thesis, Stanford University. June 2001.
  3. Liang Heng. Safe Satellite Navigation With Multiple Constellations: Global Monitoring of GPS and GLONASS Signal-in-Space Anomalies. Ph.D. thesis, Stanford University. December. 2012.
  4. Phelts R.E., Walter T., Per Enge. Toward Real-Time SQM for WAAS: Improved Detection Techniques // ION GNSS 16th International Technical Meeting of the Satellite Division of the Institute of Navigation. Portland (Oregon). 2003. P. 2739 ? 2749.
  5. Detection of Anomaly Signal by Signal Quality Monitor Receiver. Saitoh. GNSS-ION 04. P. 2331-2336.
  6. Thoelert S., Erker S., Meurer M., Furthner J. New Signals in the Sky - A High Gain Antenna Analysis of GPS IIF and COMPASS, 23rd International Technical Meeting of the Satellite Division of The Institute of Navigation, Portland, OR, September 21-24. 2010.
  7. Pini M., Akos D.M. Analysis of GNSS Signals using the Robert C.Byrd Green Bank Telescope. Satellite Communications and Navigation Systems, edited by Enrico Del Re, Marina Ruggieri, 2008 Springer Science + Business Media.
  8. Gotta M., Corvo S., Gottifredi F., Martinino F. GNSS Signal Monitoring Laboratory Facility at AAS-I Premises: an Overview, 2nd Workshop on GNSS Signals & Signal Processing GNSS SIGNALS-2007.
  9. High Gain Antenna Co., Ltd., Korea(South), 425-090 Danwon-gu,Ansan,Gyeonggi. http://www.highgain.co.kr
  10. General Dynamics SATCOM Technologies, USA, http://www.gdsatcom.com