We consider dynamical systems for which the spatial extension plays an important role. For these systems, the notions of attractor, ε-entropy and topological entropy per unit time and volume have been introduced previously. In this paper we use the notion of Kolmogorov complexity to introduce, for extended dynamical systems, a notion of complexity per unit time and volume which plays the same role as the metric entropy for classical dynamical systems. We introduce this notion as an almost sure limit on orbits of the system. Moreover we prove a kind of variational principle for this complexity.
Complexity for extended dynamical systems
BONANNO, CLAUDIO;
2007-01-01
Abstract
We consider dynamical systems for which the spatial extension plays an important role. For these systems, the notions of attractor, ε-entropy and topological entropy per unit time and volume have been introduced previously. In this paper we use the notion of Kolmogorov complexity to introduce, for extended dynamical systems, a notion of complexity per unit time and volume which plays the same role as the metric entropy for classical dynamical systems. We introduce this notion as an almost sure limit on orbits of the system. Moreover we prove a kind of variational principle for this complexity.File in questo prodotto:
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