Add to ORKGThe replicator equation describes the process of natural selection, i. e. the deterministic com-ponent of the biological evolution; for details see e.g. [2]. Let us assume that a population (biological community) is divided into n types (species, genotypes, phenotypes, traits etc.) E1, E2,... En with relative frequencies x1, x2,...x
Suppose we have n different types of self-replicating entity, with the population Pi of the ith type...
Game dynamics, as a branch of frequency-dependent population genetics, leads to replicator equations...
A generational time scale, involving change from one generation to the next, is the time scale of ev...
This survey of the "state of the art" of replicator dynamics covers recent developments in the theor...
<p>The frequency of each ToM phenotype (y-axis) is plotted against evolutionary time (x-axis), for 1...
Models of evolutionary dynamics are often approached via the replicator equation, which in its stand...
The complexity of biology literally calls for quantitative tools in order to support and validate bi...
Abstract The replicator equation is one of the fundamental tools to study evolutionary dynamics in w...
Cressman R, Hofbauer J, Riedel F. Stability of the Replicator Equation for a Single-Species with a M...
Life evolved on our planet by means of a combination of Darwinian selection and innovations leading ...
Cancer evolution and progression are shaped by cellular interactions and Darwinian selection. Evolut...
The aim of this work is to study the features of a simple replicator chemical model of the relation ...
The population dynamics of macromolecules that reproduce by means of template-directed ligation of t...
International audienceA distinctive signature of living systems is Darwinian evolution, that is, a p...
This article is a presentation of specific recent results describing scaling limits of individual- b...
Suppose we have n different types of self-replicating entity, with the population Pi of the ith type...
Game dynamics, as a branch of frequency-dependent population genetics, leads to replicator equations...
A generational time scale, involving change from one generation to the next, is the time scale of ev...
This survey of the "state of the art" of replicator dynamics covers recent developments in the theor...
<p>The frequency of each ToM phenotype (y-axis) is plotted against evolutionary time (x-axis), for 1...
Models of evolutionary dynamics are often approached via the replicator equation, which in its stand...
The complexity of biology literally calls for quantitative tools in order to support and validate bi...
Abstract The replicator equation is one of the fundamental tools to study evolutionary dynamics in w...
Cressman R, Hofbauer J, Riedel F. Stability of the Replicator Equation for a Single-Species with a M...
Life evolved on our planet by means of a combination of Darwinian selection and innovations leading ...
Cancer evolution and progression are shaped by cellular interactions and Darwinian selection. Evolut...
The aim of this work is to study the features of a simple replicator chemical model of the relation ...
The population dynamics of macromolecules that reproduce by means of template-directed ligation of t...
International audienceA distinctive signature of living systems is Darwinian evolution, that is, a p...
This article is a presentation of specific recent results describing scaling limits of individual- b...
Suppose we have n different types of self-replicating entity, with the population Pi of the ith type...
Game dynamics, as a branch of frequency-dependent population genetics, leads to replicator equations...
A generational time scale, involving change from one generation to the next, is the time scale of ev...