Abstract
We study coupled chaotic neuronal maps. Chaos in chaotic neuronal maps is controlled by threshold activated coupling and the system yields synchronized temporally periodic states. A threshold is applied to all sites of a lattice and excess is transferred to other sites at varying degree of: relaxation time, dynamical updating, and connection topology. In each different realization, a transition from spatiotemporal chaos to ordered state is obtained. We also propose a scheme to obtain dynamical logic cell, using a threshold coupled chaotic neuronal drive–response systems. The study of threshold coupled chaotic dynamical systems suggest its potential application in computation and information processing.
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Shrimali, M.D. (2010). Properties of Threshold Coupled Chaotic Neuronal Maps. In: Peper, F., Umeo, H., Matsui, N., Isokawa, T. (eds) Natural Computing. Proceedings in Information and Communications Technology, vol 2. Springer, Tokyo. https://doi.org/10.1007/978-4-431-53868-4_10
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DOI: https://doi.org/10.1007/978-4-431-53868-4_10
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