Characterization of Carrier Phase-Based Positioning in Real-World Jamming Conditions

Søren Skaarup Larsen*, Anna B. O. Jensen, Daniel H. Olesen

*Corresponding author for this work

    Research output: Contribution to journalJournal articleResearchpeer-review

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    Abstract

    GNSS signals arriving at receivers at the surface of the Earth are weak and easily susceptible to interference and jamming. In this paper, the impact of jamming on the reference station in carrier phase-based relative baseline solutions is examined. Several scenarios are investigated in order to assess the robustness of carrier phase-based positioning towards jamming. Among others, these scenarios include a varying baseline length, the use of single- versus dual-frequency observations, and the inclusion of the Galileo and GLONASS constellations to a GPS only solution. The investigations are based on observations recorded at physical reference stations in the Danish TAPAS network during actual jamming incidents, in order to realistically evaluate the impact of real-world jamming on carrier phase-based positioning accuracy. The analyses performed show that, while there are benefits of using observations from several frequencies and constellations in positioning solutions, special care must be taken in solution processing. The selection of which GNSS constellations and observations to include, as well as when they are included, is essential, as blindly adding more jamming-affected observations may lead to worse positioning accuracy.
    Original languageEnglish
    Article number2680
    JournalRemote Sensing
    Volume13
    Issue number14
    Number of pages28
    ISSN2072-4292
    DOIs
    Publication statusPublished - 2021

    Keywords

    • GNSS jamming
    • Carrier phase-based positioning
    • Real-time kinematic
    • Network RTK
    • Reference station networks
    • Precise positioning

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