Attractor-merging Crises and Intermittency in Reservoir Computing
Kabayama, Tempei, Komuro, Motomasa, Kuniyoshi, Yasuo, Aihara, Kazuyuki, Nakajima, Kohei
–arXiv.org Artificial Intelligence
Reservoir computing can embed attractors into random neural networks (RNNs), generating a ``mirror'' of a target attractor because of its inherent symmetrical constraints. In these RNNs, we report that an attractor-merging crisis accompanied by intermittency emerges simply by adjusting the global parameter. We further reveal its underlying mechanism through a detailed analysis of the phase-space structure and demonstrate that this bifurcation scenario is intrinsic to a general class of RNNs, independent of training data.
arXiv.org Artificial Intelligence
Sep-19-2025
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