Author:
Jasra Ajay,Maama Mohamed,Ombao Hernando
Abstract
Abstract
In this paper we consider the filtering of partially observed multidimensional diffusion processes that are observed regularly at discrete times. This is a challenging problem which requires the use of advanced numerical schemes based upon time-discretization of the diffusion process and then the application of particle filters. Perhaps the state-of-the-art method for moderate-dimensional problems is the multilevel particle filter of Jasra et al. (SIAM J. Numer. Anal.55 (2017), 3068–3096). This is a method that combines multilevel Monte Carlo and particle filters. The approach in that article is based intrinsically upon an Euler discretization method. We develop a new particle filter based upon the antithetic truncated Milstein scheme of Giles and Szpruch (Ann. Appl. Prob.24 (2014), 1585–1620). We show empirically for a class of diffusion problems that, for
$\epsilon>0$
given, the cost to produce a mean squared error (MSE) of
$\mathcal{O}(\epsilon^2)$
in the estimation of the filter is
$\mathcal{O}(\epsilon^{-2}\log(\epsilon)^2)$
. In the case of multidimensional diffusions with non-constant diffusion coefficient, the method of Jasra et al. (2017) requires a cost of
$\mathcal{O}(\epsilon^{-2.5})$
to achieve the same MSE.
Publisher
Cambridge University Press (CUP)
Cited by
1 articles.
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