Affiliation:
1. Molecular and Cellular Physiology, Beckman Center, Stanford University, Stanford, CA 94305-5426 USA
2. Yale Computer Science, P.O. Box 2158 Yale Station, New Haven, CT 06520 USA
Abstract
The existence of modular structures in the organization of nervous systems (e.g., cortical columns, patches of neostriatum, and olfactory glomeruli) is well known. However, the detailed dynamic mechanisms by which such structures develop remain a mystery. We propose a mechanism for the formation of modular structures that utilizes a combination of intrinsic network dynamics and Hebbian learning. Specifically, we show that under certain conditions, layered networks can support spontaneous localized activity patterns, which we call collective excitations, even in the absence of localized or spatially correlated afferent stimulation. These collective excitations can then induce the formation of modular structures in both the afferent and lateral connections via a Hebbian learning mechanism. The networks we consider are spatially homogeneous before learning, but the spontaneous emergence of localized collective excitations and the consequent development of modules in the connection patterns break translational symmetry. The essential conditions required to support collective excitations include internal units with sufficiently high gains and certain patterns of lateral connectivity. Our proposed mechanism is likely to play a role in understanding more complex (and more biologically realistic) systems.
Subject
Cognitive Neuroscience,Arts and Humanities (miscellaneous)
Cited by
11 articles.
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