SM41A-2468
Data assimialation for real-time prediction and reanalysis

Thursday, 17 December 2015
Poster Hall (Moscone South)
Yuri Shprits1, Adam C Kellerman2, Tatiana Podladchikova1, Dmitri A Kondrashov3 and Michael Ghil1, (1)University of California Los Angeles, Los Angeles, CA, United States, (2)University of California Los Angeles, EPSS, Los Angeles, CA, United States, (3)University of California Los Angeles, Atmos. Sci, Los Angeles, CA, United States
Abstract:
We discuss the how data assimilation can be used for the analysis of individual satellite anomalies, development of long-term evolution reconstruction that can be used for the specification models, and use of data assimilation to improve the now-casting and focusing of the radiation belts. We also discuss advanced data assimilation methods such as parameter estimation and smoothing.The 3D data assimilative VERB allows us to blend together data from GOES, RBSP A and RBSP B. Real-time prediction framework operating on our web site based on GOES, RBSP A, B and ACE data and 3D VERB is presented and discussed. In this paper we present a number of application of the data assimilation with the VERB 3D code. 1) Model with data assimilation allows to propagate data to different pitch angles, energies, and L-shells and blends them together with the physics based VERB code in an optimal way. We illustrate how we use this capability for the analysis of the previous events and for obtaining a global and statistical view of the system. 2) The model predictions strongly depend on initial conditions that are set up for the model. Therefore the model is as good as the initial conditions that it uses. To produce the best possible initial condition data from different sources ( GOES, RBSP A, B, our empirical model predictions based on ACE) are all blended together in an optimal way by means of data assimilation as described above. The resulting initial condition does not have gaps. That allows us to make a more accurate predictions.