Abstract
The Galileo E5 or COMPASS B2 signal is the most precision civil and most challenging navigation signal which will be available in the near future for regular navigation. The excellent performance of this signal was reached by Alternative Binary Offset Carrier (AltBOC) modulation, which is specially designed for high precision range measurement and which is featured by extremely wide bandwidth. However, this modulation presents some drawbacks. The most severe one is the ambiguity problem in AltBOC signal acquisition and tracking, which introduces a large bias in the pseudo-range measurement. In order to solve this problem, an unambiguous tracking method based on a pseudo correlation function for AltBOC(15,10) modulation signal is proposed in this paper. It employs two local signals and a novel combination function, which completely removes side peaks from the correlation function while keeping the sharp main peak. Impacts of multipath on the proposed method are also investigated. Simulation results demonstrate that the proposed method is totally unambiguous while exhibiting an average multipath performance with respect to the existing unambiguous tracking methods.
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Abbreviations
- GNSS:
-
Global navigation satellite systems
- AltBOC:
-
Alternative binary offset carrier
- PCF:
-
Pseudo correlation function
- ACF:
-
Autocorrelation function
- CCF:
-
Cross-correlation function
- PSD:
-
Power spectral density
- SC:
-
Side-peaks cancellation
- NEML:
-
Narrow early-minus-late
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Chen, H., Wang, R., Jia, W. et al. An Unambiguous Tracking Method Based on Pseudo Correlation Function for AltBOC(15,10) Signal. Wireless Pers Commun 69, 1347–1364 (2013). https://doi.org/10.1007/s11277-012-0637-z
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DOI: https://doi.org/10.1007/s11277-012-0637-z