English

An algorithm for approximating the second moment of the normalizing constant estimate from a particle filter

Methodology 2016-08-19 v2 Statistics Theory Statistics Theory

Abstract

We propose a new algorithm for approximating the non-asymptotic second moment of the marginal likelihood estimate, or normalizing constant, provided by a particle filter. The computational cost of the new method is O(M)O(M) per time step, independently of the number of particles NN in the particle filter, where MM is a parameter controlling the quality of the approximation. This is in contrast to O(MN)O(MN) for a simple averaging technique using MM i.i.d. replicates of a particle filter with NN particles. We establish that the approximation delivered by the new algorithm is unbiased, strongly consistent and, under standard regularity conditions, increasing MM linearly with time is sufficient to prevent growth of the relative variance of the approximation, whereas for the simple averaging technique it can be necessary to increase MM exponentially with time in order to achieve the same effect. Numerical examples illustrate performance in the context of a stochastic Lotka\textendash Volterra system and a simple AR(1) model.

Keywords

Cite

@article{arxiv.1602.02279,
  title  = {An algorithm for approximating the second moment of the normalizing constant estimate from a particle filter},
  author = {Svetoslav Kostov and Nick Whiteley},
  journal= {arXiv preprint arXiv:1602.02279},
  year   = {2016}
}
R2 v1 2026-06-22T12:44:46.975Z