Ainoa Murillo
Publications:
Kazakov A. O., Murillo A., Vieiro A., Zaichikov K.
Numerical Study of Discrete Lorenz-Like Attractors
2024, vol. 29, no. 1, pp. 78-99
Abstract
We consider a homotopic to the identity family of maps, obtained as a discretization
of the Lorenz system, such that the dynamics of the last is recovered as a limit dynamics when
the discretization parameter tends to zero. We investigate the structure of the discrete Lorenzlike
attractors that the map shows for different values of parameters. In particular, we check the
pseudohyperbolicity of the observed discrete attractors and show how to use interpolating vector
fields to compute kneading diagrams for near-identity maps. For larger discretization parameter
values, the map exhibits what appears to be genuinely-discrete Lorenz-like attractors, that is,
discrete chaotic pseudohyperbolic attractors with a negative second Lyapunov exponent. The
numerical methods used are general enough to be adapted for arbitrary near-identity discrete
systems with similar phase space structure.
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