A Relaxed Direct-insertion Downscaling Method For Discrete-in-time Data Assimilation
Numerical Analysis
2026-01-13 v1 Numerical Analysis
Analysis of PDEs
Dynamical Systems
Abstract
This paper improves the spectrally-filtered direct-insertion downscaling method for discrete-in-time data assimilation by introducing a relaxation parameter that overcomes a constraint on the observation frequency. Numerical simulations demonstrate that taking the relaxation parameter proportional to the time between observations allows one to vary the observation frequency over a wide range while maintaining convergence of the approximating solution to the reference solution. Under the same assumptions we analytically prove that taking the observation frequency to infinity results in the continuous-in-time nudging method.
Cite
@article{arxiv.2601.07025,
title = {A Relaxed Direct-insertion Downscaling Method For Discrete-in-time Data Assimilation},
author = {Emine Celik and Eric Olson},
journal= {arXiv preprint arXiv:2601.07025},
year = {2026}
}
Comments
33 pages, 7 figures