English

Thin times and random times' decomposition

Probability 2018-04-06 v2

Abstract

The paper studies thin times which are random times whose graph is contained in a countable union of the graphs of stopping times with respect to a reference filtration F\mathbb F. We show that a generic random time can be decomposed into thin and thick parts, where the second is a random time avoiding all F\mathbb F-stopping times. Then, for a given random time τ\tau, we introduce Fτ{\mathbb F}^\tau, the smallest right-continuous filtration containing F\mathbb F and making τ\tau a stopping time, and we show that, for a thin time τ\tau, each F\mathbb F-martingale is an Fτ{\mathbb F}^\tau-semimartingale, i.e., the hypothesis (H)({\mathcal H}^\prime) for (F,Fτ)(\mathbb F, {\mathbb F}^\tau) holds. We present applications to honest times, which can be seen as last passage times, showing classes of filtrations which can only support thin honest times, or can accommodate thick honest times as well.

Keywords

Cite

@article{arxiv.1605.03905,
  title  = {Thin times and random times' decomposition},
  author = {Anna Aksamit and Tahir Choulli and Monique Jeanblanc},
  journal= {arXiv preprint arXiv:1605.03905},
  year   = {2018}
}
R2 v1 2026-06-22T13:59:35.191Z