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  Assessment of length-of-day and universal time predictions based on the results of the Second Earth Orientation Parameters Prediction Comparison Campaign

Śliwińska-Bronowicz, J., Kur, T., Wińska, M., Dobslaw, H., Nastula, J., Partyka, A., Belda, S., Bizouard, C., Boggs, D., Bruni, S., Chen, L., Chin, M., Dhar, S., Dill, R., Ferrandiz, J. M., Gou, J., Gross, R., Guessoum, S., Han, S., Heinkelmann, R., Irrgang, C., Kiani Shahvandi, M., Li, J., Ligas, M., Liu, L., Lu, W., Mayer, V., Michalczak, M., Modiri, S., Otten, M., Ratcliff, T., Raut, S., Saynisch-Wagner, J., Schartner, M., Schoenemann, E., Schuh, H., Soja, B., Su, X., Thaller, D., Thomas, M., Wang, G., Wu, Y., Xu, X., Yang, X., Zhao, X., Zhou, Z. (2024): Assessment of length-of-day and universal time predictions based on the results of the Second Earth Orientation Parameters Prediction Comparison Campaign. - Journal of Geodesy, 98, 22.
https://doi.org/10.1007/s00190-024-01824-7

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Śliwińska-Bronowicz, Justyna1, Author
Kur, Tomasz1, Author
Wińska, Małgorzata1, Author
Dobslaw, Henryk2, Author              
Nastula, Jolanta1, Author
Partyka, Aleksander1, Author
Belda, Santiago1, Author
Bizouard, Christian1, Author
Boggs, Dale1, Author
Bruni, Sara1, Author
Chen, Lue1, Author
Chin, Mike1, Author
Dhar, Sujata3, Author              
Dill, R.2, Author              
Ferrandiz, Jose Manuel1, Author
Gou, Junyang1, Author
Gross, Richard1, Author
Guessoum, Sonia1, Author
Han, Songtao1, Author
Heinkelmann, R.3, Author              
Irrgang, C.2, Author              Kiani Shahvandi, Mostafa1, AuthorLi, Jia1, AuthorLigas, Marcin1, AuthorLiu, Lintao1, AuthorLu, Weitao1, AuthorMayer, Volker1, AuthorMichalczak, Maciej1, AuthorModiri, Sadegh1, AuthorOtten, Michiel1, AuthorRatcliff, Todd1, AuthorRaut, Shrishail3, Author              Saynisch-Wagner, J.2, Author              Schartner, Matthias1, AuthorSchoenemann, Erik1, AuthorSchuh, H.3, Author              Soja, Benedikt1, AuthorSu, Xiaoqing1, AuthorThaller, Daniela1, AuthorThomas, M.2, Author              Wang, Guocheng1, AuthorWu, Yuanwei1, AuthorXu, Xueqing1, AuthorYang, Xinyu1, AuthorZhao, Xin1, AuthorZhou, Zhijin1, Author more..
Affiliations:
1External Organizations, ou_persistent22              
21.3 Earth System Modelling, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum, ou_146027              
31.1 Space Geodetic Techniques, 1.0 Geodesy, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum, ou_146025              

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Free keywords: Earth Orientation Parameters (EOP); Length-of-day (LOD); UT1-UTC; Prediction
 Abstract: Predicting Earth Orientation Parameters (EOP) is crucial for precise positioning and navigation both on the Earth’s surface and in space. In recent years, many approaches have been developed to forecast EOP, incorporating observed EOP as well as information on the effective angular momentum (EAM) derived from numerical models of the atmosphere, oceans, and land-surface dynamics. The Second Earth Orientation Parameters Prediction Comparison Campaign (2nd EOP PCC) aimed to comprehensively evaluate EOP forecasts from many international participants and identify the most promising prediction methodologies. This paper presents the validation results of predictions for universal time and length-of-day variations submitted during the 2nd EOP PCC, providing an assessment of their accuracy and reliability. We conduct a detailed evaluation of all valid forecasts using the IERS 14 C04 solution provided by the International Earth Rotation and Reference Systems Service (IERS) as a reference and mean absolute error as the quality measure. Our analysis demonstrates that approaches based on machine learning or the combination of least squares and autoregression, with the use of EAM information as an additional input, provide the highest prediction accuracy for both investigated parameters. Utilizing precise EAM data and forecasts emerges as a pivotal factor in enhancing forecasting accuracy. Although several methods show some potential to outperform the IERS forecasts, the current standard predictions disseminated by IERS are highly reliable and can be fully recommended for operational purposes.

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 Dates: 2024-03-202024
 Publication Status: Finally published
 Pages: -
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 Table of Contents: -
 Rev. Type: -
 Identifiers: DOI: 10.1007/s00190-024-01824-7
GFZPOF: p4 T2 Ocean and Cryosphere
OATYPE: Hybrid Open Access
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Title: Journal of Geodesy
Source Genre: Journal, SCI, Scopus
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Pages: - Volume / Issue: 98 Sequence Number: 22 Start / End Page: - Identifier: CoNE: https://gfzpublic.gfz-potsdam.de/cone/journals/resource/journals265
Publisher: Springer Nature