This paper provides a new approach for the analysis and eventually the classification of dynamical systems. The objective is pursued by extending the concept of the entropy of plane curves, first introduced within the theory of the thermodynamics of plane curves, to R^n space. Such a generalised entropy of a curve is used to evaluate curves that are obtained by connecting several points in the phase space. As the points change their coordinates according to the equations of a dynamical system, the entropy of the curve connecting them is used to infer the behaviour of the underlying dynamics. According to the proposed method all linear dynamical systems evolve at constant zero entropy, while higher asymptotic values characterise nonli...
Ensemble of initial conditions for nonlinear maps can be described in terms of entropy. This ensembl...
AbstractIn this contribution, the generalized thermodynamic formalism is applied to a nonhyperbolic ...
A comprehensive course on entropy in dynamical systems ideal for graduate students learning the subj...
This paper exploits concepts derived from the thermodynamics of curves for the analysis and classif...
This book deals with the various thermodynamic concepts used for the analysis of nonlinear dynamical...
We study here a method for estimating the topological entropy of a smooth dynamical system. Our meth...
In recent years, entropy has been used as a measure of the degree of chaos in dynamical systems. Thu...
Interrelation of various approaches to the definition of the concept of entropy determines its wide ...
A classical problem in dynamical systems is to measure the complexity of a map in terms of their orb...
We describe the phenomenology of the classical q-path entropy of a phase-space curve. This allows on...
AbstractWe define and calculate the probability density in phase space and the information entropy o...
When studying dynamical systems generated by a family of polynomials, it arises naturally cyclotomic...
Dynamical systems theory has been present at the forefront of research by scientists and mathematici...
Abstract: The key idea here is borrowed from dimension theory. The starting point is a new concept w...
One of the most useful tools for distinguishing between chaotic and stochastic time series is the so...
Ensemble of initial conditions for nonlinear maps can be described in terms of entropy. This ensembl...
AbstractIn this contribution, the generalized thermodynamic formalism is applied to a nonhyperbolic ...
A comprehensive course on entropy in dynamical systems ideal for graduate students learning the subj...
This paper exploits concepts derived from the thermodynamics of curves for the analysis and classif...
This book deals with the various thermodynamic concepts used for the analysis of nonlinear dynamical...
We study here a method for estimating the topological entropy of a smooth dynamical system. Our meth...
In recent years, entropy has been used as a measure of the degree of chaos in dynamical systems. Thu...
Interrelation of various approaches to the definition of the concept of entropy determines its wide ...
A classical problem in dynamical systems is to measure the complexity of a map in terms of their orb...
We describe the phenomenology of the classical q-path entropy of a phase-space curve. This allows on...
AbstractWe define and calculate the probability density in phase space and the information entropy o...
When studying dynamical systems generated by a family of polynomials, it arises naturally cyclotomic...
Dynamical systems theory has been present at the forefront of research by scientists and mathematici...
Abstract: The key idea here is borrowed from dimension theory. The starting point is a new concept w...
One of the most useful tools for distinguishing between chaotic and stochastic time series is the so...
Ensemble of initial conditions for nonlinear maps can be described in terms of entropy. This ensembl...
AbstractIn this contribution, the generalized thermodynamic formalism is applied to a nonhyperbolic ...
A comprehensive course on entropy in dynamical systems ideal for graduate students learning the subj...