We are interested in the genealogical structure of alleles for a Bienaymé-Galton-Watson branching process with neutral mutations (infinite alleles model), in the situation where the initial population is large and the mutation rate small. We shall establish that for an appropriate regime, the process of the sizes of the allelic sub-families converges in distribution to a certain continuous state branching process (i.e. a Jirina process) in discrete time. Itô's excursion theory and the Lévy-Itô decomposition of subordinators provide fundamental insights for the results.Weak convergence Branching process Neutral mutations Allelic partition Lévy-Ito decomposition
This article is concerned with the long time behavior of neutral genetic population models, with fix...
In this thesis we consider a general branching population. The lifetimes of the individuals are supp...
We present here a new general class of multitype branching processes in discrete time with memory an...
AbstractWe are interested in the genealogical structure of alleles for a Bienaymé–Galton–Watson bran...
We are interested in the genealogical structure of alleles for a Bienaymé-Galton-Watson branching pr...
International audienceWe consider a Galton-Watson branching process with neutral mutations (infinite...
Cette thèse étudie des modèles de populations branchantes appelés arbres de ramification, dans lesqu...
AbstractWe consider a neutral dynamical model of biological diversity, where individuals live and re...
32 pages, 2 figures. Companion paper in preparation "Splitting trees with neutral Poissonian mutatio...
In this paper, we review recent results of ours concerning branching processes with general lifetime...
This thesis studies branching population models called splitting trees, where individuals evolve ind...
20 pages, 2 figuresInternational audienceIn this paper, we review recent results of ours concerning ...
International audienceWe consider a supercritical branching population, where individuals have i.i.d...
26 pagesInternational audienceWe consider a population model where individuals behave independently ...
29 Pages.We prove the existence of the total length process for the genealogical tree of a populatio...
This article is concerned with the long time behavior of neutral genetic population models, with fix...
In this thesis we consider a general branching population. The lifetimes of the individuals are supp...
We present here a new general class of multitype branching processes in discrete time with memory an...
AbstractWe are interested in the genealogical structure of alleles for a Bienaymé–Galton–Watson bran...
We are interested in the genealogical structure of alleles for a Bienaymé-Galton-Watson branching pr...
International audienceWe consider a Galton-Watson branching process with neutral mutations (infinite...
Cette thèse étudie des modèles de populations branchantes appelés arbres de ramification, dans lesqu...
AbstractWe consider a neutral dynamical model of biological diversity, where individuals live and re...
32 pages, 2 figures. Companion paper in preparation "Splitting trees with neutral Poissonian mutatio...
In this paper, we review recent results of ours concerning branching processes with general lifetime...
This thesis studies branching population models called splitting trees, where individuals evolve ind...
20 pages, 2 figuresInternational audienceIn this paper, we review recent results of ours concerning ...
International audienceWe consider a supercritical branching population, where individuals have i.i.d...
26 pagesInternational audienceWe consider a population model where individuals behave independently ...
29 Pages.We prove the existence of the total length process for the genealogical tree of a populatio...
This article is concerned with the long time behavior of neutral genetic population models, with fix...
In this thesis we consider a general branching population. The lifetimes of the individuals are supp...
We present here a new general class of multitype branching processes in discrete time with memory an...