CONTROL STRATEGIES FOR CHAOTIC NEUROMODULES
1996 ◽
Vol 06
(04)
◽
pp. 693-703
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Keyword(s):
One Step
◽
Different strategies for control of chaotic systems are discussed: The well known Ott-Grebogi-Yorke algorithm and two alternative algorithms based on least-squares minimisation of the one step future deviation. To compare their effectiveness in the neural network context they are applied to a minimal two neuron module with discrete chaotic dynamics. The best method with respect to calculation effort, to neural implementation, and to controlling properties is the nonlinear least squares method. Furthermore, it is observed in simulations that one can stabilise a whole periodic orbit by applying the control signals only to one of its periodic points, which lies in a distinguished region of phase space.
1985 ◽
Vol 63
(3)
◽
pp. 225-230
◽
2011 ◽
Vol 462-463
◽
pp. 1164-1169
1992 ◽
Vol 42
(1)
◽
pp. 29-48
◽
2014 ◽
Vol 73
(6)
◽
pp. 2332-2342
◽
2020 ◽
Vol 28
(2)
◽
pp. 307-312