Statistical accuracy of the ensemble Kalman filter in the near-linear setting
Abstract
Estimating the state of a dynamical system from partial and noisy observations is a ubiquitous problem in a large number of applications, such as probabilistic weather forecasting and prediction of epidemics. Particle filters are a widely adopted approach to the problem and provide provably accurate approximations of the statistics of the state, but they perform poorly in high dimensions because of weight collapse. The ensemble Kalman filter does not suffer from this issue, as it relies on an interacting particle system with equal weights. Despite its wide adoption in the geophysical sciences, mathematical analysis of the accuracy of this filter is predominantly confined to the setting of linear dynamical models and linear observations operators, and analysis beyond the linear Gaussian setting is still in its infancy. In this short note, we provide an accessible overview of recent work in which the authors take first steps to analyze the accuracy of the filter beyond the linear Gaussian setting.
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