Title :
A heuristic approach to structural and parametric change in artificial neural networks
Author :
Rementeria, Santiago ; Olabe, Xabier
Abstract :
Selection of the right connectivity is one open issue in neural network design. This paper describes a method that, assuming a variant of the common synaptic model, allows for simultaneous weight and structure updating during the training phase. The method effectively trims those connections that are not essential and, unlike traditional pruning techniques, it does not require any subjectively interpretable saliency measure. Detailed implications are provided for the case of discrete-time recurrent networks and the particular case of feedforward perceptrons trained by gradient-descent methods. Preliminary experiments in three real-world classification tasks show favorable results with a considerable reduction in the number of effective connections.
Keywords :
feedforward neural nets; heuristic programming; learning (artificial intelligence); network synthesis; pattern classification; perceptrons; recurrent neural nets; artificial neural network design; classification tasks; connections reduction; connectivity selection; discrete-time recurrent networks; feedforward perceptrons; gradient-descent methods; heuristic approach; nonessential connection pruning; parametric change; saliency measure; structural change; structure updating; synaptic model; training phase; weight updating; Artificial neural networks; Intelligent networks; Joining processes; Learning systems; Machine learning; Network topology; Neural networks; Optimization methods; Risk management;
Conference_Titel :
EUROMICRO 97. New Frontiers of Information Technology., Proceedings of the 23rd EUROMICRO Conference
Conference_Location :
Budapest, Hungary
Print_ISBN :
0-8186-8129-2
DOI :
10.1109/EURMIC.1997.617373
