adaptive resample move for estimating constants

bike trail from Kenilworth to the University of Warwick

“…adaptive resample-move allows us to reduce the variance of the estimate of normalizing constants.”

A few days before our Estimating Constants workshop, Marco Fraccaroa, Ulrich Paquet, and Ole Winthera arXived a paper on estimating normalising constants by resample-move sequential Monte Carlo. The main result of this note is a theorem that derives the optimal relative size of each particle system, based on the approximate variance of the associated importance weights. Which is of major importance when running a sequential algorithm under computing time or budget constraints. In practice this theorem cannot be applied in a sequential manner [since it depends on future steps] and the authors propose instead an adaptive algorithm, enlarging the current set of particles if the effective sample size per particle is not large enough. There may however be a danger of an endless step if the proposal is particularly ill-fitted to the target. Under a fixed total budget, this potential explosion in the number of particles may jeopardize the entire process. Unless some safeguarding mechanism is introduced towards getting back in time to recover more variety in earlier steps. The paper compares the adaptive method with other solutions, including an Riemanian manifold HMC, on Gaussian processes and restricted Boltzman machines. Both examples being associated with very specialised ways of building the sequence of tempered targets, it seems.

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