High-order and multilayer perceptron initialization

Proper initialization is one of the most important prerequisites for fast convergence of feedforward neural networks like high-order and multilayer perceptrons. This publication aims at determining the optimal variance (or range) for the initial weights and biases, which is the principal parameter o...

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Bibliographic Details
Published in:IEEE transactions on neural networks 1997-03, Vol.8 (2), p.349-359
Main Authors: Thimm, G., Fiesler, E.
Format: Article
Language:English
Subjects:
Applied sciences
Artificial intelligence
Benchmark testing
Computer science
control theory
systems
Connectionism. Neural networks
Convergence
Exact sciences and technology
Feedforward neural networks
Multi-layer neural network
Multilayer perceptrons
Network topology
Neural networks
Optimization methods
Proposals
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Summary:Proper initialization is one of the most important prerequisites for fast convergence of feedforward neural networks like high-order and multilayer perceptrons. This publication aims at determining the optimal variance (or range) for the initial weights and biases, which is the principal parameter of random initialization methods for both types of neural networks. An overview of random weight initialization methods for multilayer perceptrons is presented. These methods are extensively tested using eight real-world benchmark data sets and a broad range of initial weight variances by means of more than 30000 simulations, in the aim to find the best weight initialization method for multilayer perceptrons. For high-order networks, a large number of experiments (more than 200000 simulations) was performed, using three weight distributions, three activation functions, several network orders, and the same eight data sets. The results of these experiments are compared to weight initialization techniques for multilayer perceptrons, which leads to the proposal of a suitable initialization method for high-order perceptrons. The conclusions on the initialization methods for both types of networks are justified by sufficiently small confidence intervals of the mean convergence times.
ISSN:1045-9227
1941-0093
DOI:10.1109/72.557673