Multistatic constellations can offer various advantages for SAR remote sensing. These concepts are challenging to implement for a series of technical difficulties. The lack of synchronization, caused by the operation of transmitter and receiver with different master clocks, poses one of the fundamental operational problems, contaminating the phase signatures of the radar imaging and challenging its differential ranging accuracy. In addition, baseline accuracy of a few milimeters must achieved, preferrably using data obtained from low-cost GNSS receivers. In this work, we evaluate a synchronization method based on GNSS navigation data and Precise Orbit Determination. The method consists in using in each satellite the same oscillator for the master clock of the GNSS receiver and of the SAR payload, so that the relative time estimation obtained in the precise orbit determination can be used to synchronize the radar data in the post-processing. The simulations suggest the proposed approach is capable of delivering reliable estimates of phase errors in the absence of strong baseline velocity deviations and if multipath and other systematic errors are successfully suppressed or calibrated. In addition, different configurations are evaluate in an attempt to improve the individual baselines estimates by combining GNSS data from several satellites flying in close formation. The preliminary studies indicate that the individual baseline can potentially be improved by using intersatellite links and by implementing a consistency check by comparing the height biases between DEMs generated from different pairs of satellite.


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    Title :

    GNSS-based Position and Baseline Determination and Simultaneous Clock Synchronization for Multistatic Synthetic Aperture Radar Constellations


    Contributors:

    Publication date :

    2020-06-19


    Type of media :

    Theses


    Type of material :

    Electronic Resource


    Language :

    English




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