Add to ORKGIn this paper we study the evolution of sequential dynamical systems (SDS) asaresult of the erroneous replication of the SDS words. An SDS consists of (a) a finite, labeled graph Y in which each vertex has a state, (b) a vertex labeled sequence of functions (Fvi,Y), and (c) a word w, i.e. a sequence (w1,...,wk), where each wi is a Y-vertex. The function Fwi,Y updates the state of vertex wi as a function of the states of wi and its Y-neighbors and leaves the states of all other vertices fixed. The SDS over the word w and Y is the composed map: [FY,w] = Qk i=1 Fwi.Thewordwrepresents the genotype of the SDS in a natural way. We will randomly flip consecutive letters of w with independent probability q and study the resulting evolution of the S...
We study the spreading of a single mutant in graph-structured populations with a birth-death update ...
We study the evolution of large but finite asexual populations evolving in fitness landscapes in whi...
Large sets of genotypes give rise to the same phenotype because phenotypic expression is highly redu...
Two 1999 papers on evolution over neutral networks • Nimwegen et al. (1999) Neutral evolution of mut...
The generic structure of computer simulations motivates a new class of discrete dynamical systems th...
In this paper the authors consider the evolutionary dynamics of populations of sequences, under a pr...
In this paper recent results on random graphs are used as a framework for a theory of mutation based...
Evolutionary dynamics are affected by population structure, mutation rates and update rules. Spatial...
<p>Evolutionary dynamics can be notoriously complex and difficult to analyze. In this dissertation I...
In this paper the authors investigate the evolution of molecular structures by random point mutation...
Abstract: Evolution through mutation and selection in populations of asexu-ally replicating entities...
In this paper we investigate the evolution of populations of sequences on a random catalytic network...
Investigating the evolutionary dynamics of game theoretical interactions in populations where indivi...
In this paper the authors investigate the evolution of populations of sequences on a random catalyti...
Understanding evolution on complex fitness landscapes is difficult both because of the large dimensi...
We study the spreading of a single mutant in graph-structured populations with a birth-death update ...
We study the evolution of large but finite asexual populations evolving in fitness landscapes in whi...
Large sets of genotypes give rise to the same phenotype because phenotypic expression is highly redu...
Two 1999 papers on evolution over neutral networks • Nimwegen et al. (1999) Neutral evolution of mut...
The generic structure of computer simulations motivates a new class of discrete dynamical systems th...
In this paper the authors consider the evolutionary dynamics of populations of sequences, under a pr...
In this paper recent results on random graphs are used as a framework for a theory of mutation based...
Evolutionary dynamics are affected by population structure, mutation rates and update rules. Spatial...
<p>Evolutionary dynamics can be notoriously complex and difficult to analyze. In this dissertation I...
In this paper the authors investigate the evolution of molecular structures by random point mutation...
Abstract: Evolution through mutation and selection in populations of asexu-ally replicating entities...
In this paper we investigate the evolution of populations of sequences on a random catalytic network...
Investigating the evolutionary dynamics of game theoretical interactions in populations where indivi...
In this paper the authors investigate the evolution of populations of sequences on a random catalyti...
Understanding evolution on complex fitness landscapes is difficult both because of the large dimensi...
We study the spreading of a single mutant in graph-structured populations with a birth-death update ...
We study the evolution of large but finite asexual populations evolving in fitness landscapes in whi...
Large sets of genotypes give rise to the same phenotype because phenotypic expression is highly redu...