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Improving Atmospheric Angular Momentum Forecasts by Machine Learning

Robert Dill, Jan Saynisch‐Wagner, Christopher Irrgang, Maik Thomas

2021Earth and Space Science15 citationsDOIOpen Access PDF

Abstract

Abstract Earth angular momentum forecasts are naturally accompanied by forecast errors that typically grow with increasing forecast length. In contrast to this behavior, we have detected large quasi‐periodic deviations between atmospheric angular momentum wind term forecasts and their subsequently available analysis. The respective errors are not random and have some hard to define yet clearly visible characteristics which may help to separate them from the true forecast information. These kinds of problems, which should be automated but involve some adaptation and decision‐making in the process, are most suitable for machine learning methods. Consequently, we propose and apply a neural network to the task of removing the detected artificial forecast errors. We found that a cascading forward neural network model performed best in this problem. A total error reduction with respect to the unaltered forecasts amounts to about 30% integrated over a 6‐days forecast period. Integrated over the initial 3‐days forecast period, in which the largest artificial errors are present, the improvements amount to about 50%. After the application of the neural network, the remaining error distribution shows the expected growth with forecast length. However, a 24‐hourly modulation and an initial baseline error of 2 × 10 −8 became evident that were hidden before under the larger forecast error.

Topics & Concepts

Artificial neural networkMomentum (technical analysis)Baseline (sea)Forecast periodComputer scienceTask (project management)MeteorologyContrast (vision)Term (time)Artificial intelligenceStatisticsMathematicsPhysicsGeologyEngineeringEconomicsAccountingFinanceCash flow statementBusinessCash flowQuantum mechanicsSystems engineeringOceanographyGeophysics and Gravity MeasurementsSolar and Space Plasma DynamicsClimate variability and models
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