Analysis of Attitude Errors in GRACE Range-Rate Residuals-A Comparison Between SCA1B and the Fused Attitude Product (SCA1B + ACC1B)

For missions such as GRACE, precise knowledge of the satellite's attitude is a fundamental requirement for the realization of the intersatellite ranging principle. It is not only essential for the realization of the precise in-orbit intersatellite pointing but also for the recovery of accurate...

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Published in	IEEE sensors letters Vol. 2; no. 2; pp. 1 - 4
Main Authors	Goswami, Sujata, Klinger, Beate, Weigelt, Matthias, Mayer-Gurr, Torsten
Format	Journal Article
Language	English
Published	Piscataway IEEE 01.06.2018 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Acceleration attitude errors Attitudes Cameras Comparative studies Computation Datasets GRACE GRACE (experiment) Gravitational fields Gravity Quaternions range-rate residuals Satellites Sensor fusion Sensor systems Space vehicles
Online Access	Get full text
ISSN	2475-1472 2475-1472
DOI	10.1109/LSENS.2018.2825439

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Abstract	For missions such as GRACE, precise knowledge of the satellite's attitude is a fundamental requirement for the realization of the intersatellite ranging principle. It is not only essential for the realization of the precise in-orbit intersatellite pointing but also for the recovery of accurate temporal gravity field models. Here, we present a comparative study of two attitude datasets. One of them is the standard SCA1B RL02 datasets provided by JPL NASA, and another is a fused attitude dataset computed at TU Graz, based on the combination of ACC1B angular accelerations and SCA1B quaternions. Furthermore, we also present the impact of the attitude datasets on the intersatellite range measurements by analyzing their residuals. Our analysis reveals the significant improvement in the attitude due to the reprocessed product and reduced value of residuals computed from the reprocessed attitude.
AbstractList	For missions such as GRACE, precise knowledge of the satellite's attitude is a fundamental requirement for the realization of the intersatellite ranging principle. It is not only essential for the realization of the precise in-orbit intersatellite pointing but also for the recovery of accurate temporal gravity field models. Here, we present a comparative study of two attitude datasets. One of them is the standard SCA1B RL02 datasets provided by JPL NASA, and another is a fused attitude dataset computed at TU Graz, based on the combination of ACC1B angular accelerations and SCA1B quaternions. Furthermore, we also present the impact of the attitude datasets on the intersatellite range measurements by analyzing their residuals. Our analysis reveals the significant improvement in the attitude due to the reprocessed product and reduced value of residuals computed from the reprocessed attitude.
Author	Mayer-Gurr, Torsten Goswami, Sujata Weigelt, Matthias Klinger, Beate
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References	herman (ref6) 0 mayer-grr (ref14) 2006 bandikova (ref13) 2015 ref10 mayer-grr (ref12) 2014 ref2 romans (ref9) 2003 montenbruck (ref11) 2000 kim (ref3) 2000 ref8 thomas (ref4) 1999 case (ref7) 2010 klinger (ref1) 2014 beerer (ref5) 0
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SubjectTerms	Acceleration attitude errors Attitudes Cameras Comparative studies Computation Datasets GRACE GRACE (experiment) Gravitational fields Gravity Quaternions range-rate residuals Satellites Sensor fusion Sensor systems Space vehicles
Title	Analysis of Attitude Errors in GRACE Range-Rate Residuals-A Comparison Between SCA1B and the Fused Attitude Product (SCA1B + ACC1B)
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