Simulations of VLBI observations of a geodetic satellite providing co-location in space |
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| Authors: | James M Anderson Georg Beyerle Susanne Glaser Li Liu Benjamin Männel Tobias Nilsson Robert Heinkelmann Harald Schuh |
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| Institution: | 1.GFZ German Research Centre for Geosciences,Potsdam,Germany;2.Institute of Geodesy and Geoinformation Science,Technische Universit?t Berlin,Berlin,Germany;3.Shanghai Astronomical Observatory,Shanghai,China |
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| Abstract: | We performed Monte Carlo simulations of very-long-baseline interferometry (VLBI) observations of Earth-orbiting satellites incorporating co-located space-geodetic instruments in order to study how well the VLBI frame and the spacecraft frame can be tied using such measurements. We simulated observations of spacecraft by VLBI observations, time-of-flight (TOF) measurements using a time-encoded signal in the spacecraft transmission, similar in concept to precise point positioning, and differential VLBI (D-VLBI) observations using angularly nearby quasar calibrators to compare their relative performance. We used the proposed European Geodetic Reference Antenna in Space (E-GRASP) mission as an initial test case for our software. We found that the standard VLBI technique is limited, in part, by the present lack of knowledge of the absolute offset of VLBI time to Coordinated Universal Time at the level of microseconds. TOF measurements are better able to overcome this problem and provide frame ties with uncertainties in translation and scale nearly a factor of three smaller than those yielded from VLBI measurements. If the absolute time offset issue can be resolved by external means, the VLBI results can be significantly improved and can come close to providing 1 mm accuracy in the frame tie parameters. D-VLBI observations with optimum performance assumptions provide roughly a factor of two higher uncertainties for the E-GRASP orbit. We additionally simulated how station and spacecraft position offsets affect the frame tie performance. |
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