An associative memory that can form hypotheses: a phase-coded neural network |
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Authors: | Niels Kunstmann Claus Hillermeier Bernhard Rabus Paul Tavan |
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Affiliation: | 1. Institut für Medizinische Optik, Theoretische Biophysik, Ludwig-Maximilians-Universit?t München, Theresienstrasse 37, D-80333, Munich, Germany
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Abstract: | Nonlinear associative memories as realized, e.g., by Hopfield nets are characterized by attractor-type dynamics. When fed with a starting pattern, they converge to exactly one of the stored patterns which is supposed to be most similar. These systems cannot render hypotheses of classification, i.e., render several possible answers to a given classification problem. Inspired by von der Malsburg’s correlation theory of brain function, we extend conventional neural network architectures by introducing additional dynamical variables. Assuming an oscillatory time structure of neural firing, i.e., the existence of neural clocks, we assign a so-called phase to each formal neuron. The phases explicitly describe detailed correlations of neural activities neglected in conventional neural network architectures. Implementing this extension into a simple self-organizing network based on a feature map, we present an associative memory that actually is capable of forming hypotheses of classification. Received: 6 December 1993/Accepted in revised form: 14 July 1994 |
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