English

Bellman filtering and smoothing for state-space models

Methodology 2025-02-18 v9 Systems and Control Signal Processing Systems and Control

Abstract

This paper presents a new filter for state-space models based on Bellman's dynamic-programming principle, allowing for nonlinearity, non-Gaussianity and degeneracy in the observation and/or state-transition equations. The resulting Bellman filter is a direct generalisation of the (iterated and extended) Kalman filter, enabling scalability to higher dimensions while remaining computationally inexpensive. It can also be extended to enable smoothing. Under suitable conditions, the Bellman-filtered states are stable over time and contractive towards a region around the true state at every time step. Static (hyper)parameters are estimated by maximising a filter-implied pseudo log-likelihood decomposition. In univariate simulation studies, the Bellman filter performs on par with state-of-the-art simulation-based techniques at a fraction of the computational cost. In two empirical applications, involving up to 150 spatial dimensions or highly degenerate/nonlinear state dynamics, the Bellman filter outperforms competing methods in both accuracy and speed.

Keywords

Cite

@article{arxiv.2008.11477,
  title  = {Bellman filtering and smoothing for state-space models},
  author = {Rutger-Jan Lange},
  journal= {arXiv preprint arXiv:2008.11477},
  year   = {2025}
}

Comments

60 pages

R2 v1 2026-06-23T18:06:46.789Z