As binary offset carrier signals are widely used in global navigation satellite systems, tracking ambiguity threats and multipath become two main factors that affect ranging precision. 2-D tracking loops, such as double estimate tracking and double-phase estimator, estimate the code delay and subcarrier delay by the delay locked loop and the subcarrier locked loop, respectively, to obtain high precision and unambiguous propagation delay. Although 2-D tracking techniques can effectively alleviate the impact of tracking ambiguity threats, their antimultipath performance has not been improved compared with one-dimensional tracking techniques. This article proposes a general design method for 2-D multicorrelator antimultipath tracking (TMAT) structures based on heuristic optimization. Compared with 2-D tracking loops equipped with traditional antimultipath structures, such as narrow early minus late and double delta structures, TMAT structures designed for different signals with different bandwidths always have better multipath mitigation performance without any degradation of tracking robustness. According to case studies, because of the great antimultipath improvement of TMAT structures, the slight degradation in thermal noise performance can be acceptable. Also, the designed TMAT structures are insensitive to the relative amplitude of multipath and bandwidth of signals, indicating the great practicality of this technique.
General Design Method for Two-Dimensional Multicorrelator Antimultipath Tracking Loop for BOC Signals
IEEE Transactions on Aerospace and Electronic Systems ; 59 , 2 ; 871-885
2023-04-01
7695672 byte
Article (Journal)
Electronic Resource
English
A Delay-Lock Loop for Tracking Pulsed-Envelope Signals
IEEE | 1971
|Carrier Loop Architectures for Tracking Weak GPS Signals
Online Contents | 2008
|Carrier loop architectures for tracking weak GPS signals
IEEE | 2008
|Open Loop Tracking of Radio Occultation Signals from an Airborne Platform
British Library Conference Proceedings | 2010
|