Impact of correlated observation errors on the conditioning of variational data assimilation problems

Author:

Goux Olivier12ORCID,Gürol Selime1,Weaver Anthony T.1,Diouane Youssef3ORCID,Guillet Oliver4

Affiliation:

1. ALGO‐COOP Team CERFACS / CECI CNRS UMR 5318 Toulouse France

2. ISAE‐SUPAERO University of Toulouse Toulouse France

3. Department of Mathematics and Industrial Engineering Polytechnique Montréal Montréal Quebec Canada

4. CNRM UMR 3589, Météo‐France and CNRS Toulouse France

Abstract

SummaryAn important class of nonlinear weighted least‐squares problems arises from the assimilation of observations in atmospheric and ocean models. In variational data assimilation, inverse error covariance matrices define the weighting matrices of the least‐squares problem. For observation errors, a diagonal matrix (i.e., uncorrelated errors) is often assumed for simplicity even when observation errors are suspected to be correlated. While accounting for observation‐error correlations should improve the quality of the solution, it also affects the convergence rate of the minimization algorithms used to iterate to the solution. If the minimization process is stopped before reaching full convergence, which is usually the case in operational applications, the solution may be degraded even if the observation‐error correlations are correctly accounted for. In this article, we explore the influence of the observation‐error correlation matrix () on the convergence rate of a preconditioned conjugate gradient (PCG) algorithm applied to a one‐dimensional variational data assimilation (1D‐Var) problem. We design the idealized 1D‐Var system to include two key features used in more complex systems: we use the background error covariance matrix () as a preconditioner (B‐PCG); and we use a diffusion operator to model spatial correlations in and . Analytical and numerical results with the 1D‐Var system show a strong sensitivity of the convergence rate of B‐PCG to the parameters of the diffusion‐based correlation models. Depending on the parameter choices, correlated observation errors can either speed up or slow down the convergence. In practice, a compromise may be required in the parameter specifications of and between staying close to the best available estimates on the one hand and ensuring an adequate convergence rate of the minimization algorithm on the other.

Publisher

Wiley

Subject

Applied Mathematics,Algebra and Number Theory

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