An unconventional approach of the edge of chaos and its application to discrete systems is described in this chapter. Langton?s approach to cellular automata and its unique ordered and chaotic behavior is discussed. The expansion of this approach to genetics and random networks by Kauffman is described with a brief analogy provided of chaos in evolutionary algorithms in terms of stagnation.P(GA102/09/1680), Z(MSM7088352101
coupled map lattices, evolution, optimisation, SOMA, differential evolution, genetic algorithm This ...
What is the optimal level of chaos in a computational system? If a system is too chaotic, it cannot ...
A Cellular automaton is an initial state (usually represented as squares on a grid) which changes to...
We present results from an experiment similar to one performed by Packard (1988), in which a genetic...
This chapter deals with chaotic systems. Based on the characterization of deterministic chaos, unive...
Does biological computation happen at some sort of edge of chaos , a dynamical regime somewhere bet...
Darwinian mechanism can be clearly understood and its power can be easily observed in exact form of ...
This chapter presents a novel method for visualizing the dynamics of evolutionary algorithms in the ...
This paper presents an overview of the history and recent efforts in combining chaos theory and evol...
We present and discuss philosophy and methodology of chaotic evolution that is theoretically support...
permits unrestricted use, distribution, and reproduction in any medium, provided the original work i...
There is growing interest in applying nonlinear methods to evolutionary biology. With good reason: t...
This article presents a novel method for visualizing the dynamics of evolutionary algorithms in the ...
There is growing interest in applying nonlinear methods to evolutionary biology. With good reason: t...
This contribution introduces an investigation on deterministic spatiotemporal chaos control based on...
coupled map lattices, evolution, optimisation, SOMA, differential evolution, genetic algorithm This ...
What is the optimal level of chaos in a computational system? If a system is too chaotic, it cannot ...
A Cellular automaton is an initial state (usually represented as squares on a grid) which changes to...
We present results from an experiment similar to one performed by Packard (1988), in which a genetic...
This chapter deals with chaotic systems. Based on the characterization of deterministic chaos, unive...
Does biological computation happen at some sort of edge of chaos , a dynamical regime somewhere bet...
Darwinian mechanism can be clearly understood and its power can be easily observed in exact form of ...
This chapter presents a novel method for visualizing the dynamics of evolutionary algorithms in the ...
This paper presents an overview of the history and recent efforts in combining chaos theory and evol...
We present and discuss philosophy and methodology of chaotic evolution that is theoretically support...
permits unrestricted use, distribution, and reproduction in any medium, provided the original work i...
There is growing interest in applying nonlinear methods to evolutionary biology. With good reason: t...
This article presents a novel method for visualizing the dynamics of evolutionary algorithms in the ...
There is growing interest in applying nonlinear methods to evolutionary biology. With good reason: t...
This contribution introduces an investigation on deterministic spatiotemporal chaos control based on...
coupled map lattices, evolution, optimisation, SOMA, differential evolution, genetic algorithm This ...
What is the optimal level of chaos in a computational system? If a system is too chaotic, it cannot ...
A Cellular automaton is an initial state (usually represented as squares on a grid) which changes to...