English

Ensemble Kalman inversion with non-smooth regularization

Numerical Analysis 2026-03-24 v1 Numerical Analysis Optimization and Control

Abstract

This paper investigates ensemble Kalman inversion (EKI) for variational inverse problems with convex, potentially non-smooth regularization. While deterministic EKI and its Tikhonov-regularized variants have primarily been analyzed for smooth objectives, a corresponding framework accommodating subgradient dynamics has not yet been established. To address this gap, we introduce a subgradient-based formulation of EKI (SEKI) that incorporates non-smooth regularizers through a covariance-preconditioned differential inclusion for the ensemble mean. In the linear forward-model setting, well-posedness of the resulting continuous-time particle system is established under minimal assumptions on the regularization functional using maximal monotone operator theory and Yosida approximations. Motivated by the continuous-time dynamics, we propose an explicit discrete-time scheme that preserves the derivative-free structure of EKI and analyze its convergence as an optimization method in the strongly convex case. Numerical experiments in computed tomography with total variation regularization and sparse recovery with 1\ell_1 penalties illustrate that non-smooth regularization can be incorporated into ensemble Kalman inversion in a stable and principled manner.

Keywords

Cite

@article{arxiv.2603.21916,
  title  = {Ensemble Kalman inversion with non-smooth regularization},
  author = {Simon Weissmann},
  journal= {arXiv preprint arXiv:2603.21916},
  year   = {2026}
}
R2 v1 2026-07-01T11:33:14.332Z