We give an exact solution of a recently proposed self-organized critical model of biological evolution. We show that the model has a power law distribution of durations of coevolutionary "avalanches" with a mean field exponent 3/2. We also calculate analytically the finite size effects which cut off this power law at times of the order of the system size
peer reviewedA simple stochastic model of Darwinistic evolution generating phylogenetic-like trees i...
This paper studies a stylized model of local interaction where agents choose from an ever increasing...
The self-organized criticality in Ehrenfest's historical dog-flea model is analyzed by simulating th...
We give an exact solution of a recently proposed self-organized critical model of biological evoluti...
We suggest that ensembles of self-replicating entities such as biological systems naturally evolve t...
A punctuated equilibrium model of biological evolution with relative fitness between different speci...
We investigate a so-called punctuated-equilibrium model of tree-like evolution containing extinction...
A simple mathematical model of biological macroevolution is presented. It describes an ecology of ad...
In a semi-infinite geometry, a one-dimensional, M-component model of biological evolution realizes m...
Numerical and theoretical investigations of a tree-like model of self-organized critical evolution a...
In a critically self-organized model of punctuated equilibrium, boundaries determine peculiar scalin...
We introduce a model of biological evolution inspired by the Bak and Sneppen (BS) model. Microscopic...
Scale-free dynamics in physical and biological systems can arise from a variety of causes. Here, we ...
Power laws and distributions with heavy tails are common features of many complex systems. Examples ...
The modification of the model of P. Bak and K. Sneppen of the self-organized biological evolution is...
peer reviewedA simple stochastic model of Darwinistic evolution generating phylogenetic-like trees i...
This paper studies a stylized model of local interaction where agents choose from an ever increasing...
The self-organized criticality in Ehrenfest's historical dog-flea model is analyzed by simulating th...
We give an exact solution of a recently proposed self-organized critical model of biological evoluti...
We suggest that ensembles of self-replicating entities such as biological systems naturally evolve t...
A punctuated equilibrium model of biological evolution with relative fitness between different speci...
We investigate a so-called punctuated-equilibrium model of tree-like evolution containing extinction...
A simple mathematical model of biological macroevolution is presented. It describes an ecology of ad...
In a semi-infinite geometry, a one-dimensional, M-component model of biological evolution realizes m...
Numerical and theoretical investigations of a tree-like model of self-organized critical evolution a...
In a critically self-organized model of punctuated equilibrium, boundaries determine peculiar scalin...
We introduce a model of biological evolution inspired by the Bak and Sneppen (BS) model. Microscopic...
Scale-free dynamics in physical and biological systems can arise from a variety of causes. Here, we ...
Power laws and distributions with heavy tails are common features of many complex systems. Examples ...
The modification of the model of P. Bak and K. Sneppen of the self-organized biological evolution is...
peer reviewedA simple stochastic model of Darwinistic evolution generating phylogenetic-like trees i...
This paper studies a stylized model of local interaction where agents choose from an ever increasing...
The self-organized criticality in Ehrenfest's historical dog-flea model is analyzed by simulating th...