Fast nearly ML estimation of Doppler frequency in GNSS signal acquisition process

25Citations
Citations of this article
11Readers
Mendeley users who have this article in their library.

Abstract

It is known that signal acquisition in Global Navigation Satellite System (GNSS) field provides a rough maximum-likelihood (ML) estimate based on a peak search in a two-dimensional grid. In this paper, the theoretical mathematical expression of the cross-ambiguity function (CAF) is exploited to analyze the grid and improve the accuracy of the frequency estimate. Based on the simple equation derived from this mathematical expression of the CAF, a family of novel algorithms is proposed to refine the Doppler frequency estimate with respect to that provided by a conventional acquisition method. In an ideal scenario where there is no noise and other nuisances, the frequency estimation error can be theoretically reduced to zero. On the other hand, in the presence of noise, the new algorithm almost reaches the Cramer-Rao Lower Bound (CRLB) which is derived as benchmark. For comparison, a least-square (LS) method is proposed. It is shown that the proposed solution achieves the same performance of LS, but requires a dramatically reduced computational burden. An averaging method is proposed to mitigate the influence of noise, especially when signal-to-noise ratio (SNR) is low. Finally, the influence of the grid resolution in the search space is analyzed in both time and frequency domains. © 2013 by the authors; licensee MDPI, Basel, Switzerland.

Cite

CITATION STYLE

APA

Tang, X., Falletti, E., & Lo Presti, L. (2013). Fast nearly ML estimation of Doppler frequency in GNSS signal acquisition process. Sensors (Switzerland), 13(5), 5649–5670. https://doi.org/10.3390/s130505649

Register to see more suggestions

Mendeley helps you to discover research relevant for your work.

Already have an account?

Save time finding and organizing research with Mendeley

Sign up for free