Add to ORKGThe paper presents basic description methods of critical phenomena, i.e. first-order, continuous phase transitions, and an overview of the self-organized criticality concept. In this approach an attempt is made to identify the determinant factors of modeling critical events using cellular automata
Self!organized criticality is an important framework for understanding the emergence of scale!free n...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
International audienceIn this paper we face system dynamics modelling and cellular automata to model...
Unlike the conventional case of using cellular automata, we use a system of differential equations t...
In the report we have discussed a few aspects of SOC concept which in general have strongly influenc...
This thesis regards the study of cellular automata, with an outlook on biological systems. Cellular ...
Estudamos o comportamento crítico e transições de fase em modelos estocásticos irreversíveis, atravé...
O autômato celular Game of LIFE (GL) exibe comportamento coletivo não-trivial (Classe IV de Wolfram)...
Different microscopic models exhibiting self-organized criticality are studied numerically and analy...
This introductory paper gives a short survey of Cellular Automata (CA's), from different points of v...
This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, provides an autho...
We study nonequilibrium phase transitions occurring in a probabilistic cellular automaton which desc...
The one-dimensional Domany-Kinzel cellular automaton is investigated by two numerical approaches: (i...
Complex systems consist of a large number of interconnected and mutually interacting components. The...
Systems that exhibit complex behaviours are often found in a particular dynamical condition, poised ...
Self!organized criticality is an important framework for understanding the emergence of scale!free n...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
International audienceIn this paper we face system dynamics modelling and cellular automata to model...
Unlike the conventional case of using cellular automata, we use a system of differential equations t...
In the report we have discussed a few aspects of SOC concept which in general have strongly influenc...
This thesis regards the study of cellular automata, with an outlook on biological systems. Cellular ...
Estudamos o comportamento crítico e transições de fase em modelos estocásticos irreversíveis, atravé...
O autômato celular Game of LIFE (GL) exibe comportamento coletivo não-trivial (Classe IV de Wolfram)...
Different microscopic models exhibiting self-organized criticality are studied numerically and analy...
This introductory paper gives a short survey of Cellular Automata (CA's), from different points of v...
This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, provides an autho...
We study nonequilibrium phase transitions occurring in a probabilistic cellular automaton which desc...
The one-dimensional Domany-Kinzel cellular automaton is investigated by two numerical approaches: (i...
Complex systems consist of a large number of interconnected and mutually interacting components. The...
Systems that exhibit complex behaviours are often found in a particular dynamical condition, poised ...
Self!organized criticality is an important framework for understanding the emergence of scale!free n...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
International audienceIn this paper we face system dynamics modelling and cellular automata to model...