Abstract
Navigation receivers of global positioning systems that are operated in complex electromagnetic environment must have an increased noise immunity characteristic. One way of such noise immunity rising is to use incoherent operating mode of navigation receiver. There are known processing algorithms for navigation signals with Binary Phase Shift Keying (BPSK) modulation. But in the near-term outlook Global Navigation Satellite Systems (GLONASS), Global Positioning Systems (GPS) and Galileo known navigation signals with Binary Offset Carrier (BOC) modulation will be radiated. Processing algorithms for such signals are not described in scientific literature. So it is interesting to work out processing algorithms for BOC modulated signals in incoherent operating mode of navigation receiver. The article is devoted to synthesis and analysis of incoherent subcarrier tracking system under receiving BOC (1,1) navigation signals. To synthesize an optimal tracking system, optimal estimation theory and dual estimation method are used that allow taking into account multi-peak a posteriori distribution of delay that caused by the periodic process (digital sinusoid) in the radio signal modulation function. When analyzing the synthesized estimation algorithm, the procedure for describing delay discriminators and dual variable discriminators were used in the form of a statistical equivalent, including discrimination and fluctuation characteristics. New equations have been obtained that describe optimal tracking system for incoherent mode of a navigation receiver. New expressions for delay and dual variable discriminators are derived. The article gives a scheme for these discriminators and formulas for their statistical characteristics. Simulated results are provided that illustrate accuracy characteristics enhancement. The obtained tracking algorithms may be used in the navigation consumer equipment of GLONASS, GPS, Galileo and other radio-navigation satellite systems operating with BOC(1.1) modulated signals.
Highlights
In modern satellite navigation systems such as Global Navigation Satellite Systems (GLONASS) (Radiotekhnika, 2012; Perov and Kharisov, 2010), Global Positioning Systems (GPS) (IS-GPS-200F, 2011; IS-GPS-800B, 2011), Galileo (European GNSS, 2010), BeiDou (BeiDou NSS, 2013) it is planned to use signals with binary offset carrier Binary Offset Carrier (BOC)(1,1)
The synthesized processing algorithm of BOC modulated signals in incoherent operating mode of navigation receiver with processing at subcarrier frequencies is a two-loop tracking system that includes two discriminators (on an envelope delay (39) and on additional variable (40)), complex smoother filter described (44), and the algorithm of delay ambiguity resolution (42), (43) that coursed by signal periodical modulation function
It follows from simulation results that synthesized racking system with processing at subcarrier frequencies provides delay tracking rms by 1.4-1.6 times less known tracking system with processing at the carrier frequency when receiving BOC(1,1) modulated navigation signal
Summary
In modern satellite navigation systems such as GLONASS (Radiotekhnika, 2012; Perov and Kharisov, 2010), GPS (IS-GPS-200F, 2011; IS-GPS-800B, 2011), Galileo (European GNSS, 2010), BeiDou (BeiDou NSS, 2013) it is planned to use signals with binary offset carrier BOC(1,1). In the research carried out by Perov (2015) the basic idea of dual delay estimation is applied to synthesize optimal receiving of BOC(1,1) modulated signal in the coherent operating mode and processing at subcarrier frequencies.
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