Abstract
The global navigation satellite system (GNSS) system has a number of disadvantages such as weak signal strength and high cost, while signals of opportunity (SOPs) can make up for these shortcomings. Non-GNSS satellite SOPs offer some advantages in terms of high signal strength, low cost that belongs to ground-based SOPs and better coverage than ground-based SOPs. We investigate a new method of instantaneous Doppler positioning with Iridium signals that are treated as satellite SOPs. Initially, the Iridium SOPs positioning system is introduced through a description of its characteristics and components. Next, the instantaneous Doppler positioning algorithm is introduced, and the effects of measurement errors and satellite orbital errors on the positioning solution are analyzed by a new method. Furthermore, the influence of constellation geometrical distribution on positioning performance is analyzed based on the relative position relationship between discrete distribution points of the receiver position. Finally, the simulation data are used for theoretical verification, and the real data experiment is implemented with IRIDIUM NEXT signals. The results show that the two-dimensional (2-D) position accuracies of approximately 22 m ($1\sigma$ ) can be achieved with the height aiding when the static receiver has a complete view of the sky.
Highlights
Global navigation satellite systems (GNSS) have experienced rapid development in recent decades
DPDOP represents the time; its physical significance is the time spent by the Doppler positioning solution as it shifts from the true position to the estimation due to the existence of measurement errors
The key innovation was the development of a new geometric analysis method of positioning errors of the instantaneous Doppler positioning and the finding of the relationship between the constellation geometric distribution and the positioning accuracy
Summary
Global navigation satellite systems (GNSS) have experienced rapid development in recent decades. Z. Tan et al.: New Method for Positioning Using IRIDIUM Satellite Signals of Opportunity. Chen et al combined Doppler positioning with the coarse-time navigation technique to solve the problem that the user cannot provide an a priori location, which must satisfy certain conditions in the traditional coarse-time technique [16], [17]. We mainly implement Iridium satellite SOPs positioning using the instantaneous Doppler positioning technique. Satellite orbital errors and Doppler observation errors are the main error sources for the Iridium SOPs positioning. Decreasing the Doppler DOP by reasonably choosing GNSS satellites has significance for improving position accuracy. We present deep research on these topics, focusing on the Iridium SOPs positioning technique.
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