A new strategy to mitigate side-peak lock errors in tracking multi-peak code correlation functions

Author

Margaria, Davide ; Falletti, Emanuela ; Bagnasco, Alberto ; Parizzi, Francesco ; Torchi, Augusto

Author_Institution

Navig. Technol. Res. Area, Ist. Superiore Mario Boella, Turin, Italy

fYear

2014

Firstpage

1

Lastpage

8

Abstract

The paper presents a novel strategy capable to effectively mitigate possible false locks of the receiver tracking stage in case of multi-peak code correlation functions, as for example high-order Binary Offset Carrier (BOC) modulations, used in modern Global Navigation Satellite System signals (e.g. Galileo and modernized GPS). The proposed strategy represents an enhanced version of well-known "bump-jumping" approach and it differs from the other solutions at the state of the art. Simulation results are provided in order to demonstrate and validate the performance and the flexibility of the proposed strategy in three cases: BOC(1,1) (Galileo E1 Open Service), BOC_c(15,2.5) (Galileo E1a-like) and BOC_C(10,5) (Galileo E6a-like) modulated signals.

Keywords

modulation; satellite navigation; BOC modulations; bump-jumping approach; high-order binary offset carrier modulations; modern Global Navigation Satellite System signals; multipeak code correlation functions; receiver tracking stage; side-peak lock errors; Correlation; Correlators; Global Positioning System; Measurement; Modulation; Receivers; Tracking loops; Binary Offset Carrier modulation; Galileo; Global Navigation Satellite System; bump-jumping; modernized GPS; side-peak tracking mitigation;

fLanguage

English

Publisher

ieee

Conference_Titel

Satellite Navigation Technologies and European Workshop on GNSS Signals and Signal Processing (NAVITEC), 2014 7th ESA Workshop on

Type

conf

DOI

10.1109/NAVITEC.2014.7045133

Filename

7045133