In this participation we discuss the possibility of mutual fusion of evolutionary algorithms and deterministic chaos. As demonstrated in previous research papers, evolutionary algorithms are capable of chaotic system control, identification or synthesis and vice versa, chaos can be observed in the evolutionary dynamics. More exactly, in this paper there is numerically demonstrated possible solution of the question whether identification of so-called basin of attraction for hidden attractor can be done by evolutionary algorithms. Hidden attractors are a special kind of attractors, that are hidden in the system structure and if ignored (undiscovered), then can cause serious damages, as already observed in the real world. The research presente...
coupled map lattices, evolution, optimisation, SOMA, differential evolution, genetic algorithm This ...
Inherent part of evolutionary algorithms that are based on Darwin theory of evolution and Mendel the...
This research deals with the synthesis and control of chaos by means of evolutionary algorithms. The...
Synthesis, identification and control of complex dynamical systems are usually extremely complicated...
Complex dynamical systems, ranging from the climate, ecosystems to financial markets and engineering...
In this paper, we propose a novel methodology for automatically finding new chaotic attractors throu...
In this paper, the problem of approximating hidden chaotic attractors of a general class of nonlinea...
This paper shows the possibility of using Metabolic P systems (MP systems) for chaotic system identi...
This chapter deals with chaotic systems. Based on the characterization of deterministic chaos, unive...
This chapter introduces the concept of decryption of chaotically en- crypted information. Five evolu...
Chaos theory and associated analyses are being applied to a growing number of disciplines. Studies o...
We present and discuss philosophy and methodology of chaotic evolution that is theoretically support...
Inherent part of evolutionary algorithms that are based on Darwin’s theory of evolution and Mendel’s...
This contribution introduces an investigation on deterministic spatiotemporal chaos control based on...
Hidden attractors represent a new interesting topic in the chaos literature. These attractors have a...
coupled map lattices, evolution, optimisation, SOMA, differential evolution, genetic algorithm This ...
Inherent part of evolutionary algorithms that are based on Darwin theory of evolution and Mendel the...
This research deals with the synthesis and control of chaos by means of evolutionary algorithms. The...
Synthesis, identification and control of complex dynamical systems are usually extremely complicated...
Complex dynamical systems, ranging from the climate, ecosystems to financial markets and engineering...
In this paper, we propose a novel methodology for automatically finding new chaotic attractors throu...
In this paper, the problem of approximating hidden chaotic attractors of a general class of nonlinea...
This paper shows the possibility of using Metabolic P systems (MP systems) for chaotic system identi...
This chapter deals with chaotic systems. Based on the characterization of deterministic chaos, unive...
This chapter introduces the concept of decryption of chaotically en- crypted information. Five evolu...
Chaos theory and associated analyses are being applied to a growing number of disciplines. Studies o...
We present and discuss philosophy and methodology of chaotic evolution that is theoretically support...
Inherent part of evolutionary algorithms that are based on Darwin’s theory of evolution and Mendel’s...
This contribution introduces an investigation on deterministic spatiotemporal chaos control based on...
Hidden attractors represent a new interesting topic in the chaos literature. These attractors have a...
coupled map lattices, evolution, optimisation, SOMA, differential evolution, genetic algorithm This ...
Inherent part of evolutionary algorithms that are based on Darwin theory of evolution and Mendel the...
This research deals with the synthesis and control of chaos by means of evolutionary algorithms. The...