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Assessment of Radio Frequency Compatibility Relevant to the Galileo E1/E6 and Compass B1/B3 Bands

Published online by Cambridge University Press:  28 May 2010

Wei Liu*
Affiliation:
(School of Aeronautics and Astronautics, Shanghai Jiao Tong University)
Gang Du
Affiliation:
(School of Aeronautics and Astronautics, Shanghai Jiao Tong University)
Xingqun Zhan
Affiliation:
(School of Aeronautics and Astronautics, Shanghai Jiao Tong University)
Chuanrun Zhai
Affiliation:
(School of Aeronautics and Astronautics, Shanghai Jiao Tong University)
*

Abstract

The intersystem interference between Galileo and Compass, known as a radio frequency compatibility problem, has become a matter of great concern for the system providers and user communities. This paper firstly describes two fundamentally different methods to assess the Global Navigation Satellite System (GNSS) intersystem interference, by using different interference coefficients that are calculated for each combination of signals: the spectral separation coefficient (SSC) and code tracking spectral sensitivity coefficient (CT_SSC). And then a complete methodology combining the SSC and CT_SSC is presented. Real simulations are carried out to assess the interference effects where Galileo and Compass signals are sharing the same band (E1/B1 and E6/B3 bands) at every time and place on the Earth. Simulation results show that the effects of intersystem interference are significantly different by using these two methodologies. It is also shown that the Compass system leads to intersystem interference on Galileo but that the maximal values are lower than Galileo interference to Compass. The design and implementation of any new signal has to be conducted carefully in order for there to be radio frequency compatibility.

Type
Research Article
Copyright
Copyright © The Royal Institute of Navigation 2010

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References

REFERENCES

Avila-Rodriguez, J. A., Hein, G. W., Wallner, S. et al. (2007). The MBOC Modulation: The Final Touch to the Galileo Frequency and Signal Plan. In: Proceedings of the 20th International Technical Meeting of the Satellite Division of the Institute of Navigation ION GNSS 2007, Fort Worth, TexasGoogle Scholar
Betz, J. W. (1999). The Offset Carrier Modulation for GPS Modernization. In: Proceedings of the 1999 National Technical Meeting of the Institute of Navigation, San Diego, CA. 639648.Google Scholar
Betz, J. W. (2000a). Effect of Narrowband Interference on GPS Code Tracking Accuracy. In: Proceedings of the 2000 National Technical Meeting of the Institute of Navigation, Anaheim, CA. 1627.Google Scholar
Betz, J. W. (2001). Effect of Partial-Band Interference on Receiver Estimation of C/N0: Theory. In: Proceedings of the 2001 National Technical Meeting of the Institute of Navigation, Long Beach, CA. 817828.CrossRefGoogle Scholar
Betz, J. W., Fine, P. B. (2000b). Effect of Narrow Correlator Spacing on Code Tracking Accuracy. In: Proceedings of the 2000 National Technical Meeting of the Institute of Navigation, Anaheim, CA. 716723.Google Scholar
China (2006). Submission of the Updated Information of Compass System to the Fourth Resolution 6009 (WRC-03) Consultation Meeting, in Ministry of Information Industry. Radio Regulatory Department:The People's Republic of China.Google Scholar
Gibbons, G. (2009). GPS, GLONASS, Galileo, Compass: What GNSS Race? What Competition [Online]. Available: http://www.insidegnss.com/node/1389 [Accessed].Google Scholar
Hein, G. W. (2006). GNSS Interoperability- Achieving a Global System of Systems or “Does Everything Have to Be the Same?” Inside GNSS, 1, 5760.Google Scholar
Hein, G. W., Avila-Rodriguez, J. A., Wallner, S., Eissfeller, B., Pany, T., Hartl, P (2007a). Envisioning a Future GNSS System of Systems-Part 1. Inside GNSS, 2, 5867.Google Scholar
Hein, G. W., Avila-Rodriguez, J. A., Wallner, S., Eissfeller, B., Pany, T., Hartl, P (2007b). Envisioning a Future GNSS System of Systems – Part 2. Inside GNSS, 2, 6472.Google Scholar
ICD-GALILEO 2008. Galileo Open Service, Signal In Space Interface Control Document, OS SIS ICD, Draft 1.Google Scholar
Liu, W., Zhai, C. R., Zhang, Y. H., Zhan, X. Q. (2009). Simulation Analysis of GPS/Galileo/Compass Radio Frequency Compatibility In: Proceedings of the 22th International Technical Meeting of the Satellite Division of the Institute of Navigation ION GNSS 2009, Savannah, GA.Google Scholar
Owen, R., Goldstein, D. B., Hegarty, C. (2002). Modeling Maximum Aggregate GPS Signal Power Levels for GPS Self-Interference Analyses. In: Proceedings of the 2002 National Technical Meeting of the Institute of Navigation, San Diego, California. 939947.Google Scholar
Soualle, F., Burger, T. (2007a). Radio Frequency Compatibility Criterion for Code Tracking Performance. In: Proceedings of the 20th International Technical Meeting of the Satellite Division of the Institute of Navigation ION GNSS 2007, Fort Worth, Texas. 12011210.Google Scholar
Soualle, F., Kaindl, M., Hechenblaikner, G., Middendorf, M. (2007b). Introduction To An Additional Radio Frequency Compatibility Criterion For Code Tracking Performance. In: 2nd Workshop on GNSS Signals & Signal Processing – GNSS SIGNALS'2007, ESTEC, Netherlands.Google Scholar
Titus, B. M., Betz, J., Hegarty, C., Owen, R. (2003). Intersystem and Intrasystem Interference Analysis Methodology. In: Proceedings of the 16th International Technical Meeting of the Satellite Division of the Institute of Navigation ION GPS/GNSS 2003, Portland, Oregon. 20612069.Google Scholar
Wallner, S., Avila-Rodriguez, J. A., Hein, G. W. (2006). Interference Computations between Several GNSS Systems. In: Proceedings of ESA Navitec 2006, Noordwijk, The Netherlands.Google Scholar
Wallner, S., Hein, G. W., Pany, T., Avila-Rodriguez, J. A., Posfay, A. (2005). Interference Computations Between GPS and GALILEO. In: Proceedings of the 18th International Technical Meeting of the Satellite Division of the Institute of Navigation ION GNSS 2005, Long Beach, California. 861876.Google Scholar
XinhuaNews. (2007). China launches “Compass” navigation satellite. In: http://news.xinhuanet.com/english/2007-04/14/content_5974414.htm,.Google Scholar
XinhuaNews. (2009). China launches second “Compass” satellite for global navigation system. In: http://news.xinhuanet.com/english/2009-04/15/content_11187396.htm,.Google Scholar