Equilibrium interfaces of biased voter models

Rongfeng Sun; Jan M. Swart; Jinjiong Yu

doi:10.1214/19-AAP1461

Equilibrium interfaces of biased voter models

Rongfeng Sun
, Jan M. Swart
, Jinjiong Yu

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

A one-dimensional interacting particle system is said to exhibit interface tightness if starting in an initial condition describing the interface between two constant configurations of different types, the process modulo translations is positive recurrent. In a biological setting, this describes two populations that do not mix, and it is believed to be a common phenomenon in one-dimensional particle systems. Interface tightness has been proved for voter models satisfying a finite second moment condition on the rates. We extend this to biased voter models. Furthermore, we show that the distribution of the equilibrium interface for the biased voter model converges to that of the voter model when the bias parameter tends to zero. A key ingredient is an identity for the expected number of boundaries in the equilibrium voter model interface, which is of independent interest.

Original language	English
Pages (from-to)	2556-2593
Number of pages	38
Journal	Annals of Applied Probability
Volume	29
Issue number	4
DOIs	https://doi.org/10.1214/19-AAP1461
State	Published - 2019
Externally published	Yes

Keywords

Biased voter model
Branching and coalescing random walks
Interface tightness

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10.1214/19-AAP1461

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title = "Equilibrium interfaces of biased voter models",

abstract = "A one-dimensional interacting particle system is said to exhibit interface tightness if starting in an initial condition describing the interface between two constant configurations of different types, the process modulo translations is positive recurrent. In a biological setting, this describes two populations that do not mix, and it is believed to be a common phenomenon in one-dimensional particle systems. Interface tightness has been proved for voter models satisfying a finite second moment condition on the rates. We extend this to biased voter models. Furthermore, we show that the distribution of the equilibrium interface for the biased voter model converges to that of the voter model when the bias parameter tends to zero. A key ingredient is an identity for the expected number of boundaries in the equilibrium voter model interface, which is of independent interest.",

keywords = "Biased voter model, Branching and coalescing random walks, Interface tightness",

author = "Rongfeng Sun and Swart, \{Jan M.\} and Jinjiong Yu",

note = "Publisher Copyright: {\textcopyright} 2019 Institute of Mathematical Statistics.",

year = "2019",

doi = "10.1214/19-AAP1461",

language = "英语",

volume = "29",

pages = "2556--2593",

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AU - Sun, Rongfeng

AU - Swart, Jan M.

AU - Yu, Jinjiong

PY - 2019

Y1 - 2019

N2 - A one-dimensional interacting particle system is said to exhibit interface tightness if starting in an initial condition describing the interface between two constant configurations of different types, the process modulo translations is positive recurrent. In a biological setting, this describes two populations that do not mix, and it is believed to be a common phenomenon in one-dimensional particle systems. Interface tightness has been proved for voter models satisfying a finite second moment condition on the rates. We extend this to biased voter models. Furthermore, we show that the distribution of the equilibrium interface for the biased voter model converges to that of the voter model when the bias parameter tends to zero. A key ingredient is an identity for the expected number of boundaries in the equilibrium voter model interface, which is of independent interest.

AB - A one-dimensional interacting particle system is said to exhibit interface tightness if starting in an initial condition describing the interface between two constant configurations of different types, the process modulo translations is positive recurrent. In a biological setting, this describes two populations that do not mix, and it is believed to be a common phenomenon in one-dimensional particle systems. Interface tightness has been proved for voter models satisfying a finite second moment condition on the rates. We extend this to biased voter models. Furthermore, we show that the distribution of the equilibrium interface for the biased voter model converges to that of the voter model when the bias parameter tends to zero. A key ingredient is an identity for the expected number of boundaries in the equilibrium voter model interface, which is of independent interest.

KW - Biased voter model

KW - Branching and coalescing random walks

KW - Interface tightness

UR - https://www.scopus.com/pages/publications/85070633884

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DO - 10.1214/19-AAP1461

M3 - 文章

AN - SCOPUS:85070633884

SN - 1050-5164

VL - 29

SP - 2556

EP - 2593

JO - Annals of Applied Probability

JF - Annals of Applied Probability

IS - 4

ER -

Equilibrium interfaces of biased voter models

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Keywords

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