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Demonstration of sub-meter GPS orbit determination and 1.5 parts in 108 three-dimensional baseline accuracy

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Abstract

Differential tracking of theGPS satellites in high-earth orbit provides a powerful relative positioning capability, even when a relatively small continental U.S. fiducial tracking network is used with less than one-third of the fullGPS constellation. To demonstrate this capability, we have determined baselines of up to2000 km in North America by estimating high-accuracyGPS orbits and ground receiver positions simultaneously. The2000 km baselines agree with very long baseline interferometry(VLBI) solutions at the level of1.5 parts in10 8 and showrms daily repeatability of0.3–2 parts in10 8. The orbits determined for the most thoroughly trackedGPS satellites are accurate to better than1 m. GPS orbit accuracy was assessed from orbit predictions, comparisons with independent data sets, and the accuracy of the continental baselines determined along with the orbits. The bestGPS orbit strategies included data arcs of at least one week, process noise models for tropospheric fluctuations, estimation ofGPS solar pressure coefficients, and combined processing ofGPS carrier phase and pseudorange data. For data arcs of two weeks, constrained process noise models forGPS dynamic parameters significantly improved the solutions.

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  1. Jet Propulsion Laboratory, California Institute of Technology, 91109, California, Pasadena, USA

    Stephen M. Lichten & Willy I. Bertiger

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  1. Stephen M. Lichten
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  2. Willy I. Bertiger
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Lichten, S.M., Bertiger, W.I. Demonstration of sub-meter GPS orbit determination and 1.5 parts in 108 three-dimensional baseline accuracy. Bull. Geodesique 63, 167–189 (1989). https://doi.org/10.1007/BF02519149

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  • DOI: https://doi.org/10.1007/BF02519149

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