Pré-Publication, Document De Travail Année : 2015

Towards automatic calibration of the number of state particles within the SMC$^2$ algorithm

Résumé

SMC$^2$ is an efficient algorithm for sequential estimation and state inference of state-space models. It generates $N_θ$ parameter particles $θ^{m}$, and, for each $θ^{m}$, it runs a particle filter of size $N_{x}$ (i.e. at each time step, $N_{x}$ particles are generated in the state space $\mathcal{X}$). We discuss how to automatically calibrate $N_{x}$ in the course of the algorithm. Our approach relies on conditional Sequential Monte Carlo updates, monitoring the state of the pseudo random number generator and on an estimator of the variance of the unbiased estimate of the likelihood that is produced by the particle filters, which is obtained using nonparametric regression techniques. We observe that our approach is both less CPU intensive and with smaller Monte Carlo errors than the initial version of SMC$^2$.

Dates et versions

hal-05414781 , version 1 (13-12-2025)

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Nicolas Chopin, James Ridgway, Mathieu Gerber, Omiros Papaspiliopoulos. Towards automatic calibration of the number of state particles within the SMC$^2$ algorithm. 2025. ⟨hal-05414781⟩
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