Simulating VLBI observations to BeiDou and Galileo satellites in L-band for frame ties

Schunck, David; McCallum, Lucia; Calves, Guifre Molera

doi:10.1515/jogs-2022-0168

Journal of Geodetic Science

2024

DOI: 10.1515/jogs-2022-0168

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Simulating VLBI observations to BeiDou and Galileo satellites in L-band for frame ties

David Schunck,

Lucia McCallum,

Guifre Molera Calves

Abstract: Using the very long baseline interferometry (VLBI) technique to observe Earth-orbiting satellites is a topic of increasing interest for the establishment of frame ties. We present a simulation study on VLBI observations to BeiDou and Galileo satellites in L-band to investigate the accuracy of inter-technique frame ties between VLBI and global navigation satellite system (GNSS). We employ a global network of 16 antennas equipped with dedicated L-band receivers capable of observing BeiDou’s B1 and B3 navigation … Show more

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Effect of station selection on VLBI-to-GNSS orientation transfer using space-ties onboard a next generation Galileo satellite

Sert,

Hugentobler,

Karatekin

et al. 2024

Preprint

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Each geodetic technique realizes its specific reference frame and traditionally these independent frames are linked through the local-ties at collocation sites. Space ties onboard of a spacecraft can be also used to connect different frames as another complementary approach. Observations of a broadband VLBI transmitter (VT) onboard Galileo satellite by a VLBI ground station network can create such a link between GNSS and VLBI reference frames. In this study, we simulate observations of a VT onboard Galileo satellites and investigate the effect of VT observing network/station selection on the rotation transformation parameters between the VLBI and GNSS frames. We find that the rotation transformation uncertainties can be inflated by more than 25% when a geometrically critical station is removed from the network of 21 ground stations. We additionally analyze various VLBI networks consisting of 8-9 ground stations dedicated to IVS R1/R4 sessions. We report that by adding individual stations into some networks uncertainties are reduced by up to a factor of three in daily solutions and up to 50% for all orientation components when combining solutions covering a Galileo repeat cycle of ten days.

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Effect of station selection on VLBI-to-GNSS orientation transfer using space-ties onboard a next generation Galileo satellite

Sert,

Hugentobler,

Karatekin

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Simulating VLBI observations to BeiDou and Galileo satellites in L-band for frame ties

Cited by 1 publication

References 24 publications

Effect of station selection on VLBI-to-GNSS orientation transfer using space-ties onboard a next generation Galileo satellite

Effect of station selection on VLBI-to-GNSS orientation transfer using space-ties onboard a next generation Galileo satellite

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