Combination and SLR validation of IGS Repro3 orbits for ITRF2020

<div>Within the preparation for the release of the International Terrestrial Reference Frame 2020, the International GNSS Service (IGS) analysis centers (ACs) issued the results of the third reprocessing campaign (IGS Repro 3) of all the GNSS network solutions backwards starting from 1994. For the first time, the IGS reprocessing products include not just GPS and GLONASS, but also the Galileo constellation. In this study, we show the methodology and results of the orbit combination provided by the IGS Analysis Center Coordinator (IGS ACC) at Geoscience Australia. The quality of the provided combined orbit products was cross-checked with the individual IGS Repro3 AC contributions. The internal consistency of the individual AC solutions with the combined orbits was assessed based on the root mean square of the 3D orbit differences. In 2020, the mean consistency of the combination is at the level of 9, 23, and 15 mm for GPS, GLONASS, and Galileo, respectively. The external validation was performed using Satellite Laser Ranging (SLR) observations. We proposed a novel approach to handling detector-specific biases in the results of SLR validation, reducing the standard deviation of SLR residuals by up to 15% for Galileo FOC satellites. The method is based on bias referencing to single-photon SLR stations that are not affected by the retroreflector signature effect. The proposed approach increased the internal consistency of the SLR dataset, facilitating the detection of orbit modeling issues. The standard deviation of SLR residuals of the best individual solution versus the combined equals 13/14, 15/16, 17/16, 16/16 mm for Galileo-FOC, -IOV, GLONASS-K1B, -M, respectively. Therefore, the combined solution can be considered equal or slightly better in quality compared to the best individual AC solutions. Searching for patterns in SLR residuals for different satellite-Sun-Earth geometries reveals that some issues in orbit modeling are not fully diminished for individual ACs. Eventually, we proved that the delivered combined orbit product may be considered the best solution overall. The combined solution benefits from the best individual solutions for each satellite type.</div>

<b> Citation:</b> Zajdel, R., Masoumi, S., Sośnica, K. et al. Combination and SLR validation of IGS Repro3 orbits for ITRF2020. J Geod 97, 87 (2023). https://doi.org/10.1007/s00190-023-01777-3

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Identification info

Date (Creation)
2023-03-15T20:00:00
Date (Publication)
2023-11-19T21:31:15
Citation identifier
Geoscience Australia Persistent Identifier/https://pid.geoscience.gov.au/dataset/ga/147788

Cited responsible party
Role Organisation / Individual Name Details
Author

Zajdel, R.

 External Contact
Author

Masoumi, S.

 Internal Contact
Author

Sosnica, K.

 External Contact
Author

Galdyn, F.

 External Contact
Author

Strugarek, D.

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Author

Bury, G.

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Publisher

Springer

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Name

Journal of Geodesy

Issue identification

97, Article 97 (2023)

Purpose

GA currently retains the position of the International GNSS Service (IGS) Analysis Centre Coordinator (ACC) along with Massachusetts University of Technology (MIT). As part of the role, combinations of the third reprocessing campaign (Repro3) satellite orbits from different IGS analysis centers were performed at GA. The paper is a validation of the Repro3 orbits with Satellite Laser Ranging (SLR) observations, and discusses some of the outcomes of the validations, including the benefit of combining the orbits and points of improvements.

Status
Completed
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Role Organisation / Individual Name Details
Resource provider

Space Division

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Commonwealth of Australia (Geoscience Australia)

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Masoumi, S.

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Topic category
  • Geoscientific information

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N
S
E
W


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As needed

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Title

Product data repository: Various Formats

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Data Store directory containing the digital product files

Data Store directory containing one or more files, possibly in a variety of formats, accessible to Geoscience Australia staff only for internal purposes

Keywords

  • GNSS

Keywords

  • IGS

Keywords

  • Repro3

Keywords

  • ITRF2020

Keywords

  • orbits

Keywords

  • orbit modelling

Keywords

  • orbit combination

Keywords

  • SLR

theme.ANZRC Fields of Research.rdf

  • Geodesy

  • Satellite-based positioning

Keywords

  • Published_External

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Title

Creative Commons Attribution 4.0 International Licence

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CC-BY

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4.0

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https://creativecommons.org/licenses/by/4.0/

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Any
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© The Author(s) 2023

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Australian Government Security Classification System

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2018-11-01T00:00:00
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https://www.protectivesecurity.gov.au/Pages/default.aspx

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Unclassified
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Australian Government Security Classification System

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English
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UTF8

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Commonwealth of Australia (Geoscience Australia)

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<div>Manuscript to be submitted for publication in Journal of Geodesy</div>

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Title

Australian Government Security Classification System

Edition date
2018-11-01T00:00:00
Website

https://www.protectivesecurity.gov.au/Pages/default.aspx

Classification
Unclassified

Metadata

Metadata identifier
urn:uuid/889e3d73-13ed-4778-a3d3-dc18bca31619

Title

GeoNetwork UUID

Language
English
Character encoding
UTF8
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Commonwealth of Australia (Geoscience Australia)

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Masoumi, S.

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Name

Journal Article / Conference Paper

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Title

Geoscience Australia - short identifier for metadata record with

uuid

Citation identifier
eCatId/147788

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https://ecat.ga.gov.au/geonetwork/srv/eng/catalog.search#/metadata/889e3d73-13ed-4778-a3d3-dc18bca31619

Metadata linkage

https://ecat.ga.gov.au/geonetwork/ofmj3/eng/catalog.search#/metadata/889e3d73-13ed-4778-a3d3-dc18bca31619

Date info (Creation)
2023-11-19T21:00:28
Date info (Revision)
2023-11-19T21:00:28

Metadata standard

Title

AU/NZS ISO 19115-1:2014

Metadata standard

Title

ISO 19115-1:2014

Metadata standard

Title

ISO 19115-3

Title

Geoscience Australia Community Metadata Profile of ISO 19115-1:2014

Edition

Version 2.0, September 2018

Citation identifier
http://pid.geoscience.gov.au/dataset/ga/122551

 
 

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Keywords

theme.ANZRC Fields of Research.rdf
Geodesy Satellite-based positioning

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