Central limit theorem for stationary Fleming-Viot particle systems in finite spaces

Tony Lelièvre; Loucas Pillaud-Vivien; Julien Reygner

doi:10.30757/ALEA.V15-43

Central limit theorem for stationary Fleming-Viot particle systems in finite spaces

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Résumé

We consider the Fleming-Viot particle system associated with a continuous- time Markov chain in a finite space. Assuming irreducibility, it is known that the particle system possesses a unique stationary distribution, under which its empirical measure converges to the quasistationary distribution of the Markov chain. We complement this Law of Large Numbers with a Central Limit Theorem. Our proof essentially relies on elementary computations on the infinitesimal generator of the Fleming-Viot particle system, and involves the so-called π-return process in the expression of the asymptotic variance. Our work can be seen as an infinite-time version, in the setting of finite space Markov chains, of results by Del Moral and Miclo (2003) and Cérou et al. (2016, 2017).

langue originale	Anglais
Pages (de - à)	1163-1182
Nombre de pages	20
journal	Alea (Rio de Janeiro)
Volume	15
Numéro de publication	2
Les DOIs	https://doi.org/10.30757/ALEA.V15-43
état	Publié - 1 janv. 2018

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title = "Central limit theorem for stationary Fleming-Viot particle systems in finite spaces",

abstract = "We consider the Fleming-Viot particle system associated with a continuous- time Markov chain in a finite space. Assuming irreducibility, it is known that the particle system possesses a unique stationary distribution, under which its empirical measure converges to the quasistationary distribution of the Markov chain. We complement this Law of Large Numbers with a Central Limit Theorem. Our proof essentially relies on elementary computations on the infinitesimal generator of the Fleming-Viot particle system, and involves the so-called π-return process in the expression of the asymptotic variance. Our work can be seen as an infinite-time version, in the setting of finite space Markov chains, of results by Del Moral and Miclo (2003) and C{\'e}rou et al. (2016, 2017).",

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N2 - We consider the Fleming-Viot particle system associated with a continuous- time Markov chain in a finite space. Assuming irreducibility, it is known that the particle system possesses a unique stationary distribution, under which its empirical measure converges to the quasistationary distribution of the Markov chain. We complement this Law of Large Numbers with a Central Limit Theorem. Our proof essentially relies on elementary computations on the infinitesimal generator of the Fleming-Viot particle system, and involves the so-called π-return process in the expression of the asymptotic variance. Our work can be seen as an infinite-time version, in the setting of finite space Markov chains, of results by Del Moral and Miclo (2003) and Cérou et al. (2016, 2017).

AB - We consider the Fleming-Viot particle system associated with a continuous- time Markov chain in a finite space. Assuming irreducibility, it is known that the particle system possesses a unique stationary distribution, under which its empirical measure converges to the quasistationary distribution of the Markov chain. We complement this Law of Large Numbers with a Central Limit Theorem. Our proof essentially relies on elementary computations on the infinitesimal generator of the Fleming-Viot particle system, and involves the so-called π-return process in the expression of the asymptotic variance. Our work can be seen as an infinite-time version, in the setting of finite space Markov chains, of results by Del Moral and Miclo (2003) and Cérou et al. (2016, 2017).

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Central limit theorem for stationary Fleming-Viot particle systems in finite spaces

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