Automatic techniques for the design of artificial computational systems, such as control programs for robots, are currently achieving increasing attention within the AI community. A prominent case is the design of artificial neural network systems by means of search techniques, such as genetic algorithms. Frequently, the search calibrates not only the system parameters, but also its structure. This procedure has the advantage of reducing the bias introduced by the designer and makes it possible to explore new, innovative solutions. The drawback, though, is that the analysis of the resulting system might be extremely difficult and limited to few coarse-grained characteristics. In this paper, we consider the case of robots controlled by Boole...
In a previous work, Villani et al. introduced a method to identify candidate emergent dynamical stru...
In a previous work, Villani et al. introduced a method to identify candidate emergent dynamical stru...
In this work we investigate the dynamical properties of the Boolean networks (BN) that control a rob...
Automatic techniques for the design of artificial computational systems, such as control programs fo...
Automatic techniques for the design of artificial computational systems, such as control programs fo...
Dynamical systems theory and complexity science provide powerful tools for analysing artificial agen...
Abstract In a recent work, it has been shown that Boolean networks (BN), a well-known genetic regula...
none5In a recent work, it has been shown that Boolean networks (BN), a well-known genetic regulatory...
none6noThe identification of emergent structures in dynamical systems is a major challenge in comple...
The identification of emergent structures in dynamical systems is a major challenge in complex syste...
Artificial life is largely concerned with systems that exhibit different emergent phenomena; yet, th...
Artificial life is largely concerned with systems that exhibit different emergent phenomena; yet, th...
We propose an approach to the automatic synthesis of robot control software based on the finite stat...
In a previous work, Villani et al. introduced a method to identify candidate emergent dynamical stru...
In a previous work, Villani et al. introduced a method to identify candidate emergent dynamical stru...
In this work we investigate the dynamical properties of the Boolean networks (BN) that control a rob...
Automatic techniques for the design of artificial computational systems, such as control programs fo...
Automatic techniques for the design of artificial computational systems, such as control programs fo...
Dynamical systems theory and complexity science provide powerful tools for analysing artificial agen...
Abstract In a recent work, it has been shown that Boolean networks (BN), a well-known genetic regula...
none5In a recent work, it has been shown that Boolean networks (BN), a well-known genetic regulatory...
none6noThe identification of emergent structures in dynamical systems is a major challenge in comple...
The identification of emergent structures in dynamical systems is a major challenge in complex syste...
Artificial life is largely concerned with systems that exhibit different emergent phenomena; yet, th...
Artificial life is largely concerned with systems that exhibit different emergent phenomena; yet, th...
We propose an approach to the automatic synthesis of robot control software based on the finite stat...
In a previous work, Villani et al. introduced a method to identify candidate emergent dynamical stru...
In a previous work, Villani et al. introduced a method to identify candidate emergent dynamical stru...
In this work we investigate the dynamical properties of the Boolean networks (BN) that control a rob...