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Signal processing using cellular neural networks

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Abstract

The cellular neural network (CNN) architecture combines the best features from traditional fully-connected analog neural networks and digital cellular automata. The network can rapidly process continuous-valued (gray-scale) input signals (such as images) and perform many computation functions which traditionally were implemented in digital form. Here, we briefly introduce the the theory of CNN circuits, provide some examples of CNN applications to image processing, and discuss work toward a CNN implementation in custom CMOS VLSI. The role of analog computer-aided design (CAD) will be briefly presented as it relates to analog neural network implementation.

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Author information

Authors and Affiliations

  1. Dept. of EECS, University of California, 94720, Berkeley, CA

    L. O. Chua, L. Yang & K. R. Krieg

Authors
  1. L. O. Chua

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  2. L. Yang

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  3. K. R. Krieg

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Additional information

This work is supported in part by the Office of Naval Research under Contract N00014-89-J1402, and the National Science Foundation under grant MIP-8912639.

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Chua, L.O., Yang, L. & Krieg, K.R. Signal processing using cellular neural networks.J VLSI Sign Process Syst Sign Image Video Technol3, 25–51 (1991). https://doi.org/10.1007/BF00927833

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