ausblenden:
Schlagwörter:
-
Zusammenfassung:
Short-term forecasts of atmospheric, oceanic, and terrestrial hydrospheric effective angular momentum functions
(EAM) of Earth rotation excitation are combined with least-squares extrapolation and auto-regressive modelling
to routinely predict polar motion (PM) and ∆UT1 for up to 90 days into the future.
Based on several experiments with more than 500 individual hindcasts from 2016 and 2017, a best-performing
parametrization for the method was identified. At forecast horizons of 10 days, the prediction accuracy is 3.02
mas and 5.39 mas for PM and ∆UT1, respectively, corresponding to improvements of 34% and 44% with respect
to Bulletin A. At forecast horizons of 60 days, prediction accuracies are 12.52 mas and 107.96 mas for PM and
∆UT1, corresponding to improvements of 34% and 8% over Bulletin A.
The 90 days-long EAM forecasts leading to those improved EOP predictions are routinely published once
per day at www.gfz-potsdam.de/en/esmdata and are thus ready-for-use for operational EOP prediction efforts.
