We review a series of adaptive algorithms which recognize chaos, stabilize the unstable periodic orbits embedded in a chaotic attractor and synchronize two identical chaotic systems starting from different initial conditions, by exploiting the information of the local contraction or expansion rates of a chaotic system. This adaptive strategy is applied to the chaotic Lorenz. the three-and four-dimensional Rossler and the delayed Mackey-Glass systems. (C) 1997 Elsevier Science Ltd.
Adaptive strategies for recognition, control and synchronization of chaos
Boccaletti S;Farini A;
1997-01-01
Abstract
We review a series of adaptive algorithms which recognize chaos, stabilize the unstable periodic orbits embedded in a chaotic attractor and synchronize two identical chaotic systems starting from different initial conditions, by exploiting the information of the local contraction or expansion rates of a chaotic system. This adaptive strategy is applied to the chaotic Lorenz. the three-and four-dimensional Rossler and the delayed Mackey-Glass systems. (C) 1997 Elsevier Science Ltd.File in questo prodotto:
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