Bibliographic Information

Silicon implementation of pulse coded neural networks

edited by Mona E. Zaghloul, Jack L. Meador, Robert W. Newcomb

(The Kluwer international series in engineering and computer science, SECS 266)

Kluwer Academic Publishers, c1994

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Includes bibliographical references and index

Description and Table of Contents

Description

When confronted with the hows and whys of nature's computational engines, some prefer to focus upon neural function: addressing issues of neural system behavior and its relation to natural intelligence. Then there are those who prefer the study of the "mechanics" of neural systems: the nuts and bolts of the "wetware": the neurons and synapses. Those who investigate pulse coded implementations ofartificial neural networks know what it means to stand at the boundary which lies between these two worlds: not just asking why natural neural systems behave as they do, but also how they achieve their marvelous feats. The research results presented in this book not only address more conventional abstract notions of neural-like processing, but also the more specific details ofneural-like processors. It has been established for some time that natural neural systems perform a great deal of information processing via electrochemical pulses. Accordingly, pulse coded neural network concepts are receiving increased attention in artificial neural network research. This increased interest is compounded by continuing advances in the field of VLSI circuit design. This is the first time in history in which it is practical to construct networks of neuron-like circuits of reasonable complexity that can be applied to real problems. We believe that the pioneering work in artificial neural systems presented in this book will lead to further advances that will not only be useful in some practical sense, but may also provide some additional insight into the operation of their natural counterparts.

Table of Contents

  • Preface. 1. Some Historical Perspectives on Early Pulse Coded Neural Network Circuits
  • R.W. Newcomb. 2. Pulse Techniques in Neural VLSI: a Review
  • A.F. Murray. 3. Silicon Dendritic Trees
  • J.G. Elias. 4. Silicon Neurons for Phase and Frequency Detection and Pattern Generation
  • M. deYong, C. Fields. 5. Pulse Coded Winner-Take-All Networks
  • J.L. Meador, P.D. Hylander. 6. Realization of Boolean Functions Using a Pulse Coded Neuron
  • M. de Savigny, R.W. Newcomb. 7. Design of Pulse Coded Neural Processing Element Using Modified Neural Type Cells
  • G. Moon, M.E. Zaghloul. 8. Low-Power Silicon Neurons, Axons and Synapses
  • J. Lazzaro, J. Wawrzynek. 9. Synchronous Pulse Density Modulation in Neural Network Implementation
  • J. Tomberg. 10. CMOS Analog Neural Network Systems Based on Oscillatory Neurons
  • B. Linares-Barranco, E. Sanchez-Sinencio, A. Rodriguez-Vazquez, J.L. Huertas. 11. A Digital Neural Network Architecture Using Random Pulse Trains
  • G.R. Salam, R.M. Goodman. 12. An Unsupervised Neural Processor
  • J. Donald, L.A. Akers. Index.

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