Kingman's model with random mutation probabilities: convergence and condensation II



Yuan, Linglong
(2020) Kingman's model with random mutation probabilities: convergence and condensation II. J Stat Phys, 181. pp. 870-896.

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Abstract

Kingman's model describes the evolution of a one-locus haploid population of infinite size and discrete generations under the competition of selection and mutation. A random generalisation has been made in a previous paper which assumes all mutation probabilities to be i.i.d.. The weak convergence of fitness distributions to a globally stable equilibrium for any initial distribution was proved. A condensation occurs if almost surely a positive proportion of the population travels to and condensates on the largest fitness value due to the dominance of selection over mutation. A criterion of condensation was given which relies on the equilibrium whose explicit expression is however unknown. This paper tackles these problems based on the discovery of a matrix representation of the random model. An explicit expression of the equilibrium is obtained and the key quantity in the condensation criterion can be estimated. Moreover we examine how the design of randomness in Kingman's model affects the fitness level of the equilibrium by comparisons between different models. The discovered facts are conjectured to hold in other more sophisticated models.

Item Type: Article
Uncontrolled Keywords: math.PR, math.PR, 60F05, 15B52 (primary), 60G10, 60G57, 92D15, 92D25 (secondary)
Depositing User: Symplectic Admin
Date Deposited: 16 Apr 2020 14:22
Last Modified: 18 Jan 2023 23:54
Related URLs:
URI: https://livrepository.liverpool.ac.uk/id/eprint/3083215