Please use this identifier to cite or link to this item: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/160
Title: A self-organising spiking neural network trained using delay adaptation
Authors: Pham, D.T
Packianather, M.S
Charles, Eugene Yougarajah Andrew
Issue Date: Jun-2007
Publisher: IEEE
Abstract: This paper proposes a self-organising delay adaptation spiking neural network model for clustering control chart patterns. This temporal coding spiking neural network model employs a Hebbian-based rule to shift the connection delays instead of the previous approaches of delay selection. Here the tuned delays compensate the differences in the input firing times of temporal patterns and enables them to coincide. The coincidence detection capability of the spiking neuron has been utilised for pattern detection. The structure of the network is similar to that of a Kohonen's Self-Organising Map (SOM) except that the output layer neurons are coincidence detecting spiking neurons. An input pattern is represented by the neuron that is the first to fire among all the competing spiking neurons. Clusters within the input data are identified with the location of the winning neurons and their firing times. The proposed spiking neural network has been utilised to cluster SPC control chart patterns. The trained network obtained an average clustering accuracy of 96.1% on previously unseen test data. This was achieved with a network of 8x8 spiking neurons trained for 20 epochs containing 1000 training examples. The clustering accuracy of the proposed model was found to be better than that of Kohonen's SOM.
URI: http://repo.lib.jfn.ac.lk/ujrr/handle/123456789/160
ISBN: 1424407559
978-142440755-2
Appears in Collections:Computer Science

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