Activation Function Manipulation for Fault Tolerant Feedforward Neural Networks

Yasuyuki Taniguchi; Nobuyuki Matsui; Naotake Kamiura; Yutaka Hata

doi:10.1109/ATS.1999.810751

A
ATS
1999
Eighth Asian Test Symposium (ATS'99)
Abstract - Activation Function Manipulation for Fault Tolerant Feedforward Neural Networks

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Eighth Asian Test Symposium (ATS'99)

Activation Function Manipulation for Fault Tolerant Feedforward Neural Networks

Shanghai, China

November 16-November 18

ISBN: 0-7695-0315-2

	ASCII Text	x
	Yasuyuki Taniguchi, Naotake Kamiura, Yutaka Hata, Nobuyuki Matsui, "Activation Function Manipulation for Fault Tolerant Feedforward Neural Networks," 2012 IEEE 21st Asian Test Symposium, pp. 203, Eighth Asian Test Symposium (ATS'99), 1999.

	BibTex	x
	@article{ 10.1109/ATS.1999.810751, author = {Yasuyuki Taniguchi and Naotake Kamiura and Yutaka Hata and Nobuyuki Matsui}, title = {Activation Function Manipulation for Fault Tolerant Feedforward Neural Networks}, journal ={2012 IEEE 21st Asian Test Symposium}, volume = {0}, year = {1999}, issn = {1081-7735}, pages = {203}, doi = {http://doi.ieeecomputersociety.org/10.1109/ATS.1999.810751}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - 2012 IEEE 21st Asian Test Symposium TI - Activation Function Manipulation for Fault Tolerant Feedforward Neural Networks SN - 1081-7735 SP EP A1 - Yasuyuki Taniguchi, A1 - Naotake Kamiura, A1 - Yutaka Hata, A1 - Nobuyuki Matsui, PY - 1999 KW - feedforward neural network KW - fault tolerance KW - stuck-at fault KW - sigmoid activation function VL - 0 JA - 2012 IEEE 21st Asian Test Symposium ER -

Yasuyuki Taniguchi, Himeji Institute of Technology

Naotake Kamiura, Himeji Institute of Technology

Yutaka Hata, Himeji Institute of Technology

Nobuyuki Matsui, Himeji Institute of Technology

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/ATS.1999.810751

We propose a learning algorithm to enhance the fault tolerance of feedforward neural networks (NNs for short) by manipulating the gradient of sigmoid activation function of the neuron. For the output layer, we employ the function with the relatively gentle gradient. For the hidden layer, we steepen the gradient of function after convergence. The experimental results show that our NNs are superior to NNs trained with other algorithms employing fault injection and the calculation of relevance of each weight to the output error in fault tolerance, learning cycles and time. Besides our gradient manipulation never spoils the generalization ability.

Index Terms:

feedforward neural network, fault tolerance, stuck-at fault, sigmoid activation function

Citation:

Yasuyuki Taniguchi, Naotake Kamiura, Yutaka Hata, Nobuyuki Matsui, "Activation Function Manipulation for Fault Tolerant Feedforward Neural Networks," ats, pp.203, Eighth Asian Test Symposium (ATS'99), 1999

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