2022
DOI: 10.1017/apr.2021.50
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Unbiased filtering of a class of partially observed diffusions

Abstract: In this article we consider a Monte-Carlo-based method to filter partially observed diffusions observed at regular and discrete times. Given access only to Euler discretizations of the diffusion process, we present a new procedure which can return online estimates of the filtering distribution with no time-discretization bias and finite variance. Our approach is based upon a novel double application of the randomization methods of Rhee and Glynn (Operat. Res.63, 2015) along with the multilevel particle filter … Show more

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Cited by 16 publications
(30 citation statements)
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“…In the current work we apply an analogous setting cost-wise. In fact, provided that the probability distributions P L and P P satisfy condition (3.5), the error-to-cost rates are obtained in the same way as in [25]. If we set N p = N 0 2 p , ∆ l = 2 −l , P P (p) ∝ N −1 p (p + 1) log 2 (p + 2) 2 and P L (l) ∝ ∆ l (l + 1) log 2 (l + 2) 2 , and we choose M = O(ε −2 ) (with ε > 0) so that the variance is O(ε 2 ) then the cost to obtain M samples is O(ε −2 | log(ε)| 2+δ ) for any δ > 0 ([25] page 14).…”
Section: Discussion On Costsmentioning
confidence: 99%
See 2 more Smart Citations
“…In the current work we apply an analogous setting cost-wise. In fact, provided that the probability distributions P L and P P satisfy condition (3.5), the error-to-cost rates are obtained in the same way as in [25]. If we set N p = N 0 2 p , ∆ l = 2 −l , P P (p) ∝ N −1 p (p + 1) log 2 (p + 2) 2 and P L (l) ∝ ∆ l (l + 1) log 2 (l + 2) 2 , and we choose M = O(ε −2 ) (with ε > 0) so that the variance is O(ε 2 ) then the cost to obtain M samples is O(ε −2 | log(ε)| 2+δ ) for any δ > 0 ([25] page 14).…”
Section: Discussion On Costsmentioning
confidence: 99%
“…Double randomization schemes have already been applied in [25] to the particle filter. In the current work we apply an analogous setting cost-wise.…”
Section: Discussion On Costsmentioning
confidence: 99%
See 1 more Smart Citation
“…In particular, these methods allow us to unbiasedly estimate an expectation of a functional, by randomizing on the level of the time-discretization in a type of multilevel Monte Carlo (MLMC) approach [17], where there is a coupling between different levels. As a result, this methodology has been considered in the context of both filtering and Bayesian computation [18][19][20][21] and gradient estimation [22]. One advantage of this approach is that, with couplings, it is relatively simple to use & implement computationally, while exploiting such methodologies on a range of different model problems or set-ups.…”
Section: (B) Methodologymentioning
confidence: 99%
“…It is important to emphasize that with inverse Hessian, which is required for Newton methodologies, we can debias both the C-CCPF and the normalΔPF. This can be achieved by using the same techniques which are presented in the work of Jasra et al [21].…”
Section: Algorithmmentioning
confidence: 99%