Generalization of the Kolmogorov-Sinai entropy: Logistic- and periodic-like maps at the chaos threshold

Abstract

We numerically calculate, at the edge of chaos, the time evolution of the nonextensive entropic form Sq [1-Σi=1W piq]/[q-1] (with S1=-Σi=1Wpi pi) for two families of one-dimensional dissipative maps, namely a logistic- and a periodic-like with arbitrary inflexion z at their maximum. At t=0 we choose N initial conditions inside one of the W small windows in which the accessible phase space is partitioned; to neutralize large fluctuations we conveniently average over a large amount of initial windows. We verify that one and only one value q*<1 exists such that the t∞ W∞ N∞ Sq(t)/t is finite, thus generalizing the (ensemble version of) Kolmogorov-Sinai entropy (which corresponds to q*=1 in the present formalism). This special, z-dependent, value q* numerically coincides, for both families of maps and all z, with the one previously found through two other independent procedures (sensitivity to the initial conditions and multifractal f(α) function).

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