Overcoming inaccuracies in optical multilayer perceptrons

1st International Symposium on Neuro-Fuzzy Systems, AT '96. Conference Report Pub Date : 1996-08-29 DOI:10.1109/ISNFS.1996.603821
P. Moerland, E. Fiesler, I. Saxena
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引用次数: 0

Abstract

All-optical multilayer perceptrons differ in various ways from the ideal neural network model. Examples are the use of non-ideal activation functions which are truncated, asymmetric, and have a non-standard gain, restriction of the network parameters to non-negative values, and the use of limited accuracy for the weights. In this paper an adaptation of the backpropagation learning rule is presented that compensates for these three non-idealities. The good performance of this learning rule is illustrated by a series of experiments. This algorithm enables the implementation of all-optical multilayer perceptrons where learning occurs under control of a computer.
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克服光学多层感知器的不准确性
全光多层感知器与理想的神经网络模型有很多不同。例如,使用截断的、不对称的、非标准增益的非理想激活函数,将网络参数限制为非负值,以及使用有限的权重精度。本文提出了一种自适应的反向传播学习规则来补偿这三种非理想性。通过一系列的实验证明了该学习规则的良好性能。该算法能够实现全光多层感知器,其中学习在计算机控制下进行。
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来源期刊
1st International Symposium on Neuro-Fuzzy Systems, AT '96. Conference Report
1st International Symposium on Neuro-Fuzzy Systems, AT '96. Conference Report
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