KEYWORDS: Satellite navigation systems, Receivers, Monte Carlo methods, Signal processing, Data modeling, Doppler effect, Composites, Modulation, Computer simulations, Satellites
New signal patterns and modulations are adopted in the modern GNSS and exhibit some innovative characteristics.
Especially, the presence of two components - data and pilot in one composite signal is a significant feature and has
provided breakthrough to improve the performance of the acquisition block. In this paper, two cooperative acquisition
algorithms, namely non-coherent and coherent cooperation method, are improved and implemented in frequency domain,
although the basic principle is from the literature. For each acquisition scheme, the detection probability and false alarm
probability, which is known as the Receiver Operating Characteristic, are analyzed and compared based on the maximum
search strategy from a statistical view. And then, theoretical results are demonstrated by Monte Carlo simulations with
simplified Galileo E1 signals. The simulation results indicate the feasibility of algorithms and suggest that the coherent
cooperation algorithm outperforms the non-coherent cooperation method in the effectiveness.
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