Proceedings of
3rd International Conference on Advances in Computing, Communication and Information Technology CCIT 2015
"GALILEO SIGNALS ACQUISITION USING ENHANCED SUBCARRIER ELIMINATION CONVERSION AND FASTER PROCESSING"
Abstract: “To solve multipath and to enhance the localisation accuracy in a harsh environment, BOC modulation has been adopted in modern GNSS transmission, such as GPS-M-code and Galileo-OS-code signals. The designers of the BOC technique have pointed out that the correlation function becomes ambiguous when the received signal is correlated with the reference BOC signal at code phase resolutions of 0.5 Chip. This has motivated many contributions to resolving this ambiguity, for example, by processing each side of the BOC lobes as a BPSK signal. Our literature survey concluded that solutions claiming to have mitigated this ambiguity actually have resulted in a more complex receiver implementation. The Enhanced Subcarrier Elimination (ESCE) method detailed in this paper proposes combining the two side lobes into a single lobe centered at the main frequency, thus gaining 2dB more signal power as well as reducing the correlation requirements (signal’s mixing and transforming operations) to the half;”
Keywords: BOC modulation; Unambiguous Galileo signal Subcarrier elimination;