论文信息 - Complex networks with large numbers of labelable attractors

Complex networks with large numbers of labelable attractors

Information storage in many functional subsystems of the brain is regarded by theoretical neuroscientists to be related to attractors of neural networks. The number of attractors is large and each attractor can be temporarily represented or suppressed easily by corresponding external stimulus. In this letter, we discover that complex networks consisting of excitable nodes have similar fascinating properties of coexistence of large numbers of oscillatory attractors, most of which can be labeled with a few nodes. According to a simple labeling rule, different attractors can be identified and the number of labelable attractors can be predicted from the analysis of network topology. With the cues of the labeling association, these attractors can be conveniently retrieved or suppressed on purpose.

[1] Daniel J. Amit,et al. Modeling brain function: the world of attractor neural networks, 1st Edition , 1989 .

[2] Winslow,et al. Riddled parameter space in spatiotemporal chaotic dynamical systems. , 1994, Physical review letters.

[3] Ott,et al. Scaling behavior of chaotic systems with riddled basins. , 1993, Physical review letters.

[4] Changsong Zhou,et al. Graph analysis of cortical networks reveals complex anatomical communication substrate. , 2009, Chaos.

[5] Gorka Zamora-López,et al. Cortical Hubs Form a Module for Multisensory Integration on Top of the Hierarchy of Cortical Networks , 2009, Front. Neuroinform..

[6] G. Buzsáki. Rhythms of the brain , 2006 .

[7] Albert-László Barabási,et al. Statistical mechanics of complex networks , 2001, ArXiv.