The dynamics of a tree-like evolution is investigated as a function of the range ii of the interactions between competing entities which are located at the extremities of the branches. Speciation (branching) events are supposed to be driven by extremal dynamics. Extinction events are allowed and controlled by a parameter r. a transition between self-organized critical and frozen evolution occurs at some well-defined critical value r(c)(k). Surprisingly, the critical r(c) value behaves as a power of the range k(r(c) similar to k(-delta)) with an exponent S = -0.46+/-0.03. Moreover, the asymptotic case k = +infinity is herein exactly solved. The dynamics for k = +infinity is not critical and does not present any transition in contrast w...
In a critically self-organized model of punctuated equilibrium, boundaries determine peculiar scalin...
Robust critical systems are characterized by power laws which occur over a broad range of conditions...
Robust critical systems are characterized by power laws which occur over a broad range of conditions...
We have investigated a model of tree growth in order to show that self-organized criticality (SOC) c...
We investigate a so-called punctuated-equilibrium model of tree-like evolution containing extinction...
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...
In a semi-infinite geometry, a one-dimensional, M-component model of biological evolution realizes m...
peer reviewedA simple stochastic model of Darwinistic evolution generating phylogenetic-like trees i...
A simple mathematical model of biological macroevolution is presented. It describes an ecology of ad...
We suggest that ensembles of self-replicating entities such as biological systems naturally evolve t...
Numerical and theoretical investigations of a tree-like model of self-organized critical evolution a...
AbstractThe random-neighbor version of the Bak-Sneppen biological evolution model is reproduced, alo...
A simple stochastic model of Darwinistic evolution generating phylogenetic-like trees is developed. ...
With better understanding of what causes complex systems to undergo critical transitions, unwanted c...
In a critically self-organized model of punctuated equilibrium, boundaries determine peculiar scalin...
Robust critical systems are characterized by power laws which occur over a broad range of conditions...
Robust critical systems are characterized by power laws which occur over a broad range of conditions...
We have investigated a model of tree growth in order to show that self-organized criticality (SOC) c...
We investigate a so-called punctuated-equilibrium model of tree-like evolution containing extinction...
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...
In a semi-infinite geometry, a one-dimensional, M-component model of biological evolution realizes m...
peer reviewedA simple stochastic model of Darwinistic evolution generating phylogenetic-like trees i...
A simple mathematical model of biological macroevolution is presented. It describes an ecology of ad...
We suggest that ensembles of self-replicating entities such as biological systems naturally evolve t...
Numerical and theoretical investigations of a tree-like model of self-organized critical evolution a...
AbstractThe random-neighbor version of the Bak-Sneppen biological evolution model is reproduced, alo...
A simple stochastic model of Darwinistic evolution generating phylogenetic-like trees is developed. ...
With better understanding of what causes complex systems to undergo critical transitions, unwanted c...
In a critically self-organized model of punctuated equilibrium, boundaries determine peculiar scalin...
Robust critical systems are characterized by power laws which occur over a broad range of conditions...
Robust critical systems are characterized by power laws which occur over a broad range of conditions...