A general multitype branching process with sibling dependencies is considered. The dependencies within a group of siblings are described by a joint probability measure, determined by the structure of that particular group. The process is analyzed by means of the embedded macro process, consisting of sibling groups. It is shown that the regular asymptotic behavior of the sibling-dependent process is guaranteed by conditions on the individual reproductions, and that these conditions are exactly the same as those normally required for an ordinary independent process that has the same individual marginals. Convergence results for the expected population size as well as the actual population size are given, and the stable population is described...
The paper focuses on spatial multitype branching systems with spatial components (colonies) indexed ...
Abstract—This review paper presents the known results on the asymptotics of the survival probability...
AbstractWe propose a stochastic process model for a population of individuals of two types. Type-I i...
This paper deals with homogeneous critical branching populations, where the correlations between the...
Independence of reproducing individuals can be viewed as the very defining property of branching pro...
AbstractA branching process model where offspring distributions depend on the threshold as well as o...
In this paper, the multitype population size-dependent branching process with dependent offspring is...
AbstractThis paper deals with homogeneous critical branching populations, where the correlations bet...
International audienceWe are interested in the dynamic of a structured branching population where th...
We consider a multitype branching process with immigration in a ran-dom environment introduced by Ke...
This review paper presents the known results on the asymptotics of the survival probability and limi...
AbstractThe natural Markov structure for population growth is that of genetics: newborns inherit typ...
We propose a stochastic process model for a population of individuals of two types. Type-I individua...
We present a general class of multitype branching processes in discrete time with age, memory and po...
The natural Markov structure for population growth is that of genetics: newborns inherit types from ...
The paper focuses on spatial multitype branching systems with spatial components (colonies) indexed ...
Abstract—This review paper presents the known results on the asymptotics of the survival probability...
AbstractWe propose a stochastic process model for a population of individuals of two types. Type-I i...
This paper deals with homogeneous critical branching populations, where the correlations between the...
Independence of reproducing individuals can be viewed as the very defining property of branching pro...
AbstractA branching process model where offspring distributions depend on the threshold as well as o...
In this paper, the multitype population size-dependent branching process with dependent offspring is...
AbstractThis paper deals with homogeneous critical branching populations, where the correlations bet...
International audienceWe are interested in the dynamic of a structured branching population where th...
We consider a multitype branching process with immigration in a ran-dom environment introduced by Ke...
This review paper presents the known results on the asymptotics of the survival probability and limi...
AbstractThe natural Markov structure for population growth is that of genetics: newborns inherit typ...
We propose a stochastic process model for a population of individuals of two types. Type-I individua...
We present a general class of multitype branching processes in discrete time with age, memory and po...
The natural Markov structure for population growth is that of genetics: newborns inherit types from ...
The paper focuses on spatial multitype branching systems with spatial components (colonies) indexed ...
Abstract—This review paper presents the known results on the asymptotics of the survival probability...
AbstractWe propose a stochastic process model for a population of individuals of two types. Type-I i...