Epilepsy diagnosis using artificial neural network learned by PSO
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Date
2015Author
Yalçın, Nesibe
Tezel, Gülay
Karakuzu, Cihan
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Electroencephalogram (EEG) is used routinely for diagnosis of diseases occurring in the brain. It is a very
useful clinical tool in the classification of epileptic seizures and the diagnosis of epilepsy. In this study, epilepsy diagnosis
has been investigated using EEG records. For this purpose, an artificial neural network (ANN), widely used and known
as an active classification technique, is applied. The particle swarm optimization (PSO) method, which does not need
gradient calculation, derivative information, or any solution of differential equations, is preferred as the training algorithm
for the ANN. A PSO-based neural network (PSONN) model is diversified according to PSO versions, and 7 PSO-based
neural network models are described. Among these models, PSONN3 and PSONN4 are determined to be appropriate
models for epilepsy diagnosis due to having better classification accuracy. The training methods-based PSO versions are
compared with the backpropagation algorithm, which is a traditional method. In addition, different numbers of neurons,
iterations/generations, and swarm sizes have been considered and tried. Results obtained from the models are evaluated,
interpreted, and compared with the results of earlier works done with the same dataset in the literature.