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Autori principali: De Santis, Emilio, Laxa, Kádmo, Löcherbach, Eva
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2510.24996
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author De Santis, Emilio
Laxa, Kádmo
Löcherbach, Eva
author_facet De Santis, Emilio
Laxa, Kádmo
Löcherbach, Eva
contents In this article we introduce two new perfect simulation algorithms for chains with infinite memory. Both algorithms belong to the coupling of past procedures. The novelty of our approach is that it allows to include unknown states to the possible past symbols such that we can also deal with sparsely distributed past dependencies. In our first algorithm, spontaneous occurrence of symbols is possible. This means that there is a positive probability that the chain chooses the next symbol independently of the past. Our second algorithm deals with the case in which spontaneous occurrence of symbols is not possible. Chains with infinite memory are discrete-time stochastic processes in which the distribution of the next symbol depends on all past symbols. These transition probabilities are described by a probability kernel. Our results give conditions on the way the dependency of the transition kernel on long past strings decays, guaranteeing that our algorithms stop after a finite number of steps almost surely. Strengthening these conditions, we show that the mean number of steps of our algorithms is finite. We discuss the consequence of having a coupling from the past algorithm with such properties and we present examples in which our results can be applied while others result in the literature cannot be applied.
format Preprint
id arxiv_https___arxiv_org_abs_2510_24996
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A new look at perfect simulation for chains with infinite memory
De Santis, Emilio
Laxa, Kádmo
Löcherbach, Eva
Probability
60G10, 68W20
In this article we introduce two new perfect simulation algorithms for chains with infinite memory. Both algorithms belong to the coupling of past procedures. The novelty of our approach is that it allows to include unknown states to the possible past symbols such that we can also deal with sparsely distributed past dependencies. In our first algorithm, spontaneous occurrence of symbols is possible. This means that there is a positive probability that the chain chooses the next symbol independently of the past. Our second algorithm deals with the case in which spontaneous occurrence of symbols is not possible. Chains with infinite memory are discrete-time stochastic processes in which the distribution of the next symbol depends on all past symbols. These transition probabilities are described by a probability kernel. Our results give conditions on the way the dependency of the transition kernel on long past strings decays, guaranteeing that our algorithms stop after a finite number of steps almost surely. Strengthening these conditions, we show that the mean number of steps of our algorithms is finite. We discuss the consequence of having a coupling from the past algorithm with such properties and we present examples in which our results can be applied while others result in the literature cannot be applied.
title A new look at perfect simulation for chains with infinite memory
topic Probability
60G10, 68W20
url https://arxiv.org/abs/2510.24996