English

Recursive Estimation of a Failure Probability for a Lipschitz Function

Probability 2021-07-29 v1 Statistics Theory Statistics Theory

Abstract

Let g : Ω\Omega = [0, 1] d \rightarrow R denote a Lipschitz function that can be evaluated at each point, but at the price of a heavy computational time. Let X stand for a random variable with values in Ω\Omega such that one is able to simulate, at least approximately, according to the restriction of the law of X to any subset of Ω\Omega. For example, thanks to Markov chain Monte Carlo techniques, this is always possible when X admits a density that is known up to a normalizing constant. In this context, given a deterministic threshold T such that the failure probability p := P(g(X) > T) may be very low, our goal is to estimate the latter with a minimal number of calls to g. In this aim, building on Cohen et al. [9], we propose a recursive and optimal algorithm that selects on the fly areas of interest and estimate their respective probabilities.

Keywords

Cite

@article{arxiv.2107.13369,
  title  = {Recursive Estimation of a Failure Probability for a Lipschitz Function},
  author = {Lucie Bernard and Albert Cohen and Arnaud Guyader and Florent Malrieu},
  journal= {arXiv preprint arXiv:2107.13369},
  year   = {2021}
}
R2 v1 2026-06-24T04:35:47.886Z