A Knowledge-Aided Robust Ensemble Kalman Filter Algorithm for Non-Linear and Non-Gaussian Large Systems

Santiago Lopez-Restrepo; Santiago Lopez-Restrepo; Santiago Lopez-Restrepo; Andres Yarce; Andres Yarce; Andres Yarce; Nicolás Pinel; O. L. Quintero; Arjo Segers; A. W. Heemink

doi:10.3389/fams.2022.830116

Frontiers in Applied Mathematics and Statistics (Mar 2022)

A Knowledge-Aided Robust Ensemble Kalman Filter Algorithm for Non-Linear and Non-Gaussian Large Systems

Santiago Lopez-Restrepo,
Santiago Lopez-Restrepo,
Santiago Lopez-Restrepo,
Andres Yarce,
Andres Yarce,
Andres Yarce,
Nicolás Pinel,
O. L. Quintero,
Arjo Segers,
A. W. Heemink

Affiliations

Santiago Lopez-Restrepo: Mathematical Modelling Research Group, Universidad EAFIT, Medellín, Colombia
Santiago Lopez-Restrepo: Department of Applied Mathematics, TU Delft, Delft, Netherlands
Santiago Lopez-Restrepo: SimpleSpace, Medellín, Colombia
Andres Yarce: Mathematical Modelling Research Group, Universidad EAFIT, Medellín, Colombia
Andres Yarce: Department of Applied Mathematics, TU Delft, Delft, Netherlands
Andres Yarce: SimpleSpace, Medellín, Colombia
Nicolás Pinel: Grupo de Investigación en Biodiversidad Evolución y Conservación (BEC), Departamento de Ciencias Biolgicas, Universidad EAFIT, Medellín, Colombia
O. L. Quintero: Mathematical Modelling Research Group, Universidad EAFIT, Medellín, Colombia
Arjo Segers: TNO Department of Climate, Air and Sustainability, Utrecht, Netherlands
A. W. Heemink: Department of Applied Mathematics, TU Delft, Delft, Netherlands

DOI: https://doi.org/10.3389/fams.2022.830116
Journal volume & issue: Vol. 8

Abstract

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This work proposes a robust and non-Gaussian version of the shrinkage-based knowledge-aided EnKF implementation called Ensemble Time Local H∞ Filter Knowledge-Aided (EnTLHF-KA). The EnTLHF-KA requires a target covariance matrix to integrate previously obtained information and knowledge directly into the data assimilation (DA). The proposed method is based on the robust H∞ filter and on its ensemble time-local version the EnTLHF, using an adaptive inflation factor depending on the shrinkage covariance estimated matrix. This implies a theoretical and solid background to construct robust filters from the well-known covariance inflation technique. The proposed technique is implemented in a synthetic assimilation experiment, and in an air quality application using the LOTOS-EUROS model over the Aburrá Valley to evaluate its potential for non-linear and non-Gaussian large systems. In the spatial distribution of the PM2.5 concentrations along the valley, the method outperforms the well-known Local Ensemble Transform Kalman Filter (LETKF), and the non-robust knowledge-aided Ensemble Kalman filter (EnKF-KA). In contrast to the other simulations, the ability to issue warnings for high concentration events is also increased. Finally, the simulation using EnTLHF-KA has lower error values than using EnKF-KA, indicating the advantages of robust approaches in high uncertainty systems.

Published in Frontiers in Applied Mathematics and Statistics

ISSN: 2297-4687 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Technology: Technology (General): Industrial engineering. Management engineering: Applied mathematics. Quantitative methods; Science: Mathematics: Probabilities. Mathematical statistics
Website: http://journal.frontiersin.org/journal/applied-mathematics-and-statistics#

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