Abstract—This review paper presents the known results on the asymptotics of the survival probability and limit theorems conditioned on survival of critical and subcritical branching processes in independent and identically distributed random environments. This is a natural generalization of the time-inhomogeneous branching processes. The key assumptions of the family of population models in question are nonoverlapping generations and discrete time. The reader should be aware of the fact that there are many very interesting papers cover-ing other issues in the theory of branching processes in random environments which are not mentioned here. DOI: 10.1134/S0081543813060187 1
International audienceWe are interested in the survival probability of a population modeled by a cri...
AbstractFor a strongly subcritical branching process (Zn)n⩾0 in random environment the non-extinctio...
International audienceWe consider the critical branching processes in correlated random environment ...
This review paper presents the known results on the asymptotics of the survival probability and limi...
We present some limit theorems for branching processes in random environments, which can be found in...
We study a multi-type branching process in i.i.d. random environment. Assuming that the associated r...
AbstractA subcritical branching process in random environment (BPRE) is considered whose associated ...
AbstractThe asymptotic behavior of a subcritical Branching Process in Random Environment (BPRE) star...
International audienceWe study the asymptotics of the survival probability for the critical and deco...
A subcritical branching process in random environment (BPRE) is considered whose associated random w...
A pure decomposable two-type branching process in an asynchronous random en-vironment is considered ...
AbstractWe determine the asymptotic behaviour of the survival probability of a branching process in ...
We consider a multitype branching process with immigration in a ran-dom environment introduced by Ke...
We introduce a branching process in a sparse random environment as an intermediate model between a G...
International audienceLet (Z n) n 0 be a branching process in a random environment defined by a Mark...
International audienceWe are interested in the survival probability of a population modeled by a cri...
AbstractFor a strongly subcritical branching process (Zn)n⩾0 in random environment the non-extinctio...
International audienceWe consider the critical branching processes in correlated random environment ...
This review paper presents the known results on the asymptotics of the survival probability and limi...
We present some limit theorems for branching processes in random environments, which can be found in...
We study a multi-type branching process in i.i.d. random environment. Assuming that the associated r...
AbstractA subcritical branching process in random environment (BPRE) is considered whose associated ...
AbstractThe asymptotic behavior of a subcritical Branching Process in Random Environment (BPRE) star...
International audienceWe study the asymptotics of the survival probability for the critical and deco...
A subcritical branching process in random environment (BPRE) is considered whose associated random w...
A pure decomposable two-type branching process in an asynchronous random en-vironment is considered ...
AbstractWe determine the asymptotic behaviour of the survival probability of a branching process in ...
We consider a multitype branching process with immigration in a ran-dom environment introduced by Ke...
We introduce a branching process in a sparse random environment as an intermediate model between a G...
International audienceLet (Z n) n 0 be a branching process in a random environment defined by a Mark...
International audienceWe are interested in the survival probability of a population modeled by a cri...
AbstractFor a strongly subcritical branching process (Zn)n⩾0 in random environment the non-extinctio...
International audienceWe consider the critical branching processes in correlated random environment ...