We investigate a so-called punctuated-equilibrium model of tree-like evolution containing extinctions for the weakest species with respect to a strength parameter r. Without extinctions (for r = 0), the model leads to self-organized criticality. For r not equal 0, a transition from growing trees to finite ones takes place at some critical r(c) = 0.48 +/- 0.01 value. For 0 less than or equal to r less than or similar to r(c), self-organized criticality is thus robust against extinctions of the weakest species. The size distribution of avalanches follows a power law behaviour with an exponent 3/2 which seems to be independent of the parameter r. The growing trees are found to be self-similar with a non-universal fractal dimension D-f non...
The existence of true scale-invariance in slowly driven models of self-organized criticality without...
A punctuated equilibrium model of biological evolution with relative fitness between different speci...
We introduce a model of biological evolution inspired by the Bak and Sneppen (BS) model. Microscopic...
peer reviewedWe study analytically a simple model of a self-organized critical evolution. The model...
We study analytically a simple model of a self-organized critical evolution. The model considers bot...
peer reviewedA simple stochastic model of Darwinistic evolution generating phylogenetic-like trees i...
We have investigated a model of tree growth in order to show that self-organized criticality (SOC) c...
We suggest that ensembles of self-replicating entities such as biological systems naturally evolve t...
A simple stochastic model of Darwinistic evolution generating phylogenetic-like trees is developed. ...
Numerical and theoretical investigations of a tree-like model of self-organized critical evolution a...
The dynamics of a tree-like evolution is investigated as a function of the range ii of the interacti...
We give an exact solution of a recently proposed self-organized critical model of biological evoluti...
peer reviewedNumerical and theoretical investigations of species evolution in presence of extinction...
A simple mathematical model of biological macroevolution is presented. It describes an ecology of ad...
We investigate a simple growth model. The model considers the growth of trees driven by extremal dy...
The existence of true scale-invariance in slowly driven models of self-organized criticality without...
A punctuated equilibrium model of biological evolution with relative fitness between different speci...
We introduce a model of biological evolution inspired by the Bak and Sneppen (BS) model. Microscopic...
peer reviewedWe study analytically a simple model of a self-organized critical evolution. The model...
We study analytically a simple model of a self-organized critical evolution. The model considers bot...
peer reviewedA simple stochastic model of Darwinistic evolution generating phylogenetic-like trees i...
We have investigated a model of tree growth in order to show that self-organized criticality (SOC) c...
We suggest that ensembles of self-replicating entities such as biological systems naturally evolve t...
A simple stochastic model of Darwinistic evolution generating phylogenetic-like trees is developed. ...
Numerical and theoretical investigations of a tree-like model of self-organized critical evolution a...
The dynamics of a tree-like evolution is investigated as a function of the range ii of the interacti...
We give an exact solution of a recently proposed self-organized critical model of biological evoluti...
peer reviewedNumerical and theoretical investigations of species evolution in presence of extinction...
A simple mathematical model of biological macroevolution is presented. It describes an ecology of ad...
We investigate a simple growth model. The model considers the growth of trees driven by extremal dy...
The existence of true scale-invariance in slowly driven models of self-organized criticality without...
A punctuated equilibrium model of biological evolution with relative fitness between different speci...
We introduce a model of biological evolution inspired by the Bak and Sneppen (BS) model. Microscopic...