Add to ORKGWe study the Bolker-Pacala-Dieckmann-Law (BPDL) model of population dynamics in the regime of large population density. The BPDL model is a particle system in which particles reproduce, move randomly in space, and compete with each other locally. We rigorously prove global survival as well as a shape theorem describing the asymptotic spread of the population, when the population density is sufficiently large. In contrast to most previous studies, we allow the competition kernel to have an arbitrary, even infinite range, whence the term non-local competition. This makes the particle system non-monotone and of infinite-range dependence, meaning that the usual comparison arguments break down and have to be replaced by a more hands-on approach....
We consider a certain lattice branching random walk with on-site competition and in an environment w...
We analyze an interacting particle system with a Markov evolution of birth-and-death type. We have s...
International audienceWe are interested in the long time behavior of a two-type density-dependent bi...
We study the Bolker-Pacala-Dieckmann-Law (BPDL) model of population dynamics in the regime of large ...
We propose two models of the evolution of a pair of competing populations. Both are lattice based. T...
(Communicated by the associate editor name) Abstract. To describe population dynamics, it is crucial...
International audienceTo describe population dynamics, it is crucial to take into account jointly ev...
We consider a discrete model of population with interaction where the birth and death rates are non ...
Finkelshtein D, Kondratiev Y, Kutoviy O. INDIVIDUAL BASED MODEL WITH COMPETITION IN SPATIAL ECOLOGY....
A spatial branching process is considered in which particles have a lifetime law with a tail index s...
We study a discrete time spatial branching system on Zd with logistic-type local regulation at each ...
Kondratiev Y, Kozitsky Y. Self-regulation in the Bolker-Pacala model. APPLIED MATHEMATICS LETTERS. 2...
Artículo de publicación ISIWe introduce a stochastic individual model for the spatial behavior of an...
Note: This paper is the full version of Blath, Etheridge & Meredith (2007). It has also successfully...
A stochastic birth-death competition model for particles with excluded volume is proposed. The parti...
We consider a certain lattice branching random walk with on-site competition and in an environment w...
We analyze an interacting particle system with a Markov evolution of birth-and-death type. We have s...
International audienceWe are interested in the long time behavior of a two-type density-dependent bi...
We study the Bolker-Pacala-Dieckmann-Law (BPDL) model of population dynamics in the regime of large ...
We propose two models of the evolution of a pair of competing populations. Both are lattice based. T...
(Communicated by the associate editor name) Abstract. To describe population dynamics, it is crucial...
International audienceTo describe population dynamics, it is crucial to take into account jointly ev...
We consider a discrete model of population with interaction where the birth and death rates are non ...
Finkelshtein D, Kondratiev Y, Kutoviy O. INDIVIDUAL BASED MODEL WITH COMPETITION IN SPATIAL ECOLOGY....
A spatial branching process is considered in which particles have a lifetime law with a tail index s...
We study a discrete time spatial branching system on Zd with logistic-type local regulation at each ...
Kondratiev Y, Kozitsky Y. Self-regulation in the Bolker-Pacala model. APPLIED MATHEMATICS LETTERS. 2...
Artículo de publicación ISIWe introduce a stochastic individual model for the spatial behavior of an...
Note: This paper is the full version of Blath, Etheridge & Meredith (2007). It has also successfully...
A stochastic birth-death competition model for particles with excluded volume is proposed. The parti...
We consider a certain lattice branching random walk with on-site competition and in an environment w...
We analyze an interacting particle system with a Markov evolution of birth-and-death type. We have s...
International audienceWe are interested in the long time behavior of a two-type density-dependent bi...