Abstract.
This work contains a proposition of an artificial modular neural network (MNN) in which every module network exchanges input/output information with others simultaneously. It further studies the basic dynamical characteristics of this network through both computer simulations and analytical considerations. A notable feature of this model is that it has generic representation with regard to the number of composed modules, network topologies, and classes of introduced interactions. The information processing of the MNN is described as the minimization of a total-energy function that consists of partial-energy functions for modules and their interactions, and the activity and weight dynamics are derived from the total-energy function under the Lyapunov stability condition. This concept was realized by Cross-Coupled Hopfield Nets (CCHN) that one of the authors proposed. In this paper, in order to investigate the basic dynamical properties of CCHN, we offer a representative model called Cross-Coupled Hopfield Nets with Local And Global Interactions (CCHN-LAGI) to which two distinct classes of interactions – local and global interactions – are introduced. Through a conventional test for associative memories, it is confirmed that our energy-function-based approach gives us proper dynamics of CCHN-LAGI even if the networks have different modularity. We also discuss the contribution of a single interaction and the joint contribution of the two distinct interactions through the eigenvalue analysis of connection matrices.
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Received: 18 July 1995 / Accepted in revised form: 2 October 1997
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Ozawa, S., Tsutsumi, K. & Baba, N. An artificial modular neural network and its basic dynamical characteristics . Biol Cybern 78, 19–36 (1998). https://doi.org/10.1007/s004220050409
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DOI: https://doi.org/10.1007/s004220050409