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A Discrepancy Bound for a Deterministic Acceptance-Rejection Sampler

Statistics Theory 2014-05-06 v2 Statistics Theory

Abstract

We consider an acceptance-rejection sampler based on a deterministic driver sequence. The deterministic sequence is chosen such that the discrepancy between the empirical target distribution and the target distribution is small. We use quasi-Monte Carlo (QMC) point sets for this purpose. The empirical evidence shows convergence rates beyond the crude Monte Carlo rate of N1/2N^{-1/2}. We prove that the discrepancy of samples generated by the QMC acceptance-rejection sampler is bounded from above by N1/sN^{-1/s}. A lower bound shows that for any given driver sequence, there always exists a target density such that the star discrepancy is at most N2/(s+1)N^{-2/(s+1)}. For a general density, whose domain is the real state space Rs1\mathbb{R}^{s-1}, the inverse Rosenblatt transformation can be used to convert samples from the (s1)(s-1)-dimensional cube to Rs1\mathbb{R}^{s-1}. We show that this transformation is measure preserving. This way, under certain conditions, we obtain the same convergence rate for a general target density defined in Rs1\mathbb{R}^{s-1}. Moreover, we also consider a deterministic reduced acceptance-rejection algorithm recently introduced by Barekat and Caflisch [F. Barekat and R.Caflisch. Simulation with Fluctuation and Singular Rates. ArXiv:1310.4555[math.NA], 2013.]

Keywords

Cite

@article{arxiv.1307.1185,
  title  = {A Discrepancy Bound for a Deterministic Acceptance-Rejection Sampler},
  author = {Houying Zhu and Josef Dick},
  journal= {arXiv preprint arXiv:1307.1185},
  year   = {2014}
}

Comments

To appear in the Electronic Journal of Statistics

R2 v1 2026-06-22T00:45:14.916Z