Ionospheric data assimilation and forecasting during storms
Alex T. Chartier,Tomoko Matsuo,Jeffrey L. Anderson,Nancy Collins,Timothy J. Hoar,Gang Lu,Cathryn N. Mitchell,Anthea J. Coster,Larry J. Paxton,Gary S. Bust +9 more
TLDR
In this paper, the authors used an ensemble Kalman filter constructed with the Data Assimilation Research Testbed and the Thermosphere Ionosphere Electrodynamics General Circulation Model.Abstract:
Ionospheric storms can have important effects on radio communications and navigation systems. Storm time ionospheric predictions have the potential to form part of effective mitigation strategies to these problems. Ionospheric storms are caused by strong forcing from the solar wind. Electron density enhancements are driven by penetration electric fields, as well as by thermosphere-ionosphere behavior including Traveling Atmospheric Disturbances and Traveling Ionospheric Disturbances and changes to the neutral composition. This study assesses the effect on 1 h predictions of specifying initial ionospheric and thermospheric conditions using total electron content (TEC) observations under a fixed set of solar and high-latitude drivers. Prediction performance is assessed against TEC observations, incoherent scatter radar, and in situ electron density observations. Corotated TEC data provide a benchmark of forecast accuracy. The primary case study is the storm of 10 September 2005, while the anomalous storm of 21 January 2005 provides a secondary comparison. The study uses an ensemble Kalman filter constructed with the Data Assimilation Research Testbed and the Thermosphere Ionosphere Electrodynamics General Circulation Model. Maps of preprocessed, verticalized GPS TEC are assimilated, while high-latitude specifications from the Assimilative Mapping of Ionospheric Electrodynamics and solar flux observations from the Solar Extreme Ultraviolet Experiment are used to drive the model. The filter adjusts ionospheric and thermospheric parameters, making use of time-evolving covariance estimates. The approach is effective in correcting model biases but does not capture all the behavior of the storms. In particular, a ridge-like enhancement over the continental USA is not predicted, indicating the importance of predicting storm time electric field behavior to the problem of ionospheric forecasting.read more
Citations
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Journal ArticleDOI
The Importance of Ensemble Techniques for Operational Space Weather Forecasting
TL;DR: Ensemble methods are described in detail; using a set of predictions to improve on a single-model output, for example taking a simple average of multiple models, or using more complex techniques for data assimilation.
Journal ArticleDOI
Ionospheric data assimilation with thermosphere-ionosphere-electrodynamics general circulation model and GPS-TEC during geomagnetic storm conditions
Chia-Hung Chen,Chun-Min Lin,Tomoko Matsuo,Tomoko Matsuo,W. H. Chen,I. T. Lee,Jann-Yenq Liu,J. T. Lin,Che-Wei Hsu +8 more
TL;DR: In this article, an ensemble Kalman filter software developed by the National Center for Atmospheric Research (NCAR), called Data Assimilation Research Testbed, is applied to assimilate ground-based GPS total electron content (TEC) observations into a theoretical numerical model of the thermosphere and ionosphere.
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An Ensemble Kalman Filter for the Thermosphere-Ionosphere
Journal ArticleDOI
Assessment of the Impact of FORMOSAT-7/COSMIC-2 GNSS RO Observations on Midlatitude and Low-Latitude Ionosphere Specification: Observing System Simulation Experiments Using Ensemble Square Root Filter
Che-Wei Hsu,Che-Wei Hsu,Tomoko Matsuo,Tomoko Matsuo,Xinan Yue,Tzu-Wei Fang,Tzu-Wei Fang,Tim Fuller-Rowell,Kayo Ide,Jann-Yenq Liu +9 more
TL;DR: In this paper, the authors demonstrate the capability of the GSI ionosphere to improve the ionospheric specification and make a quantitative assessment of the impact of radio occultation (RO) data on the ionosphere observing system simulation experiments conducted to calibrate key Ensemble Square Root Filter parameters that control detrimental effects of the sampling errors, particularly on the ensemble-based estimation of the correlation between observations and model states, in order to yield high quality assimilation analysis.
Journal ArticleDOI
Modeling the ionospheric prereversal enhancement by using coupled thermosphere-ionosphere data assimilation
TL;DR: In this paper, total electron content (TEC) assimilation into a coupled thermosphere-ionosphere model by using the ensemble Kalman filter results in improved specification and forecast of eastward pre-reversal enhancement (PRE) electric field (E-field).
References
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Journal ArticleDOI
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