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Notes from the Data Assimilation Workshop

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Title: PowerPoint Presentation Author: SEC Created Date: 4/12/2001 6:11:01 PM Document presentation format: On-screen Show Company: NOAA Other titles – PowerPoint PPT presentation

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Title: Notes from the Data Assimilation Workshop


1
Notes from the Data Assimilation Workshop
R.S. Weigel (CU/LASP)
  • D. Baker (CU/LASP)
  • D. Vassiliadis (NASA/GSFC)
  • A. Klimas (NASA/GSFC)
  • R. McPherron (UCLA)
  • G. Siscoe (BU)
  • N. Crooker (BU)
  • H. Spence (BU)
  • H. Singer (SEC/NOAA)
  • T. Onsager (SEC/NOAA)
  • N. Arge (SEC/NOAA)

Knowledge Transfer and Empirical Modeling Team
2
Data Assimilation Workshop Notes
  • CU/LASP held a data assimilation workshop after
    Space Weather Week
  • Copies of the talks are available at
    http//lasp.colorado.edu/cism/Data_Assimilation
  • Why and What is Data Assimilation?
  • What Data Assimilation is not
  • Key Challenges in Data Assimilation
  • Key Challenges with respect to magnetospheric DA
  • How magnetospheric DA differs from meteorological
    DA

3
Lessons LearnedWhy and What is DA?
  • Purpose of data assimilation is to combine
    measurements and models to produce best estimate
    of current and future conditions.
  • Kalman filter is most often used as a method for
    data assimilation. It became popular because it
    is a recursive solution to the optimal estimator
    problem. (Only last time step of information
    needs to be stored.)
  • Full implementation of Kalman is usually not
    possible. There is a growing field in the study
    alternatives.
  • Data assimilation does not require a
    physics-based model.
  • AD ? DA (The Assimilation of Data is not
    necessarily Data Assimilation)

4
Challenges in DA
  • Analyzed field does not match a realizable model
    state
  • Non-uniform and sparse measurements
  • Observed variables do not match variables
    predicted by the model
  • Observing systems are diverse and subject to
    error, sometimes poorly known.

5
Challenges For Magnetospheric DA
  • Very sparse measurements
  • Diverse set of both forward and inverse models
    that are highly specialized and are expert in
    different areas.

  • How to combine forward models (MHD, particle
    pushing) with inverse models (empirical,
    stochastic).
  • How to integrate data with these models

6
Differences between SW and Ordinary Weather
  • SW is usually more concerned with unlikely events
  • Magnetosphere is strongly forced
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