Automatic recognition of sleep spindles in EEG by using artificial neural networks

In this paper, we introduce a two-stage procedure based on artificial neural networks for the automatic recognition of sleep spindles (SSs) in a multi-channel electroencephalographic signal. In the first stage, a discrete perceptron is used to eliminate definite non-SSs. The pre-classification done...

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Published in	Expert systems with applications Vol. 27; no. 3; pp. 451 - 458
Main Authors	Acir, Nurettin, Guzeli, Cuneyt
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.10.2004
Subjects	Backpropagation algorithm EEG Pattern recognition Sleep spindle recognition Support vector machines Support vector machines Backpropagation algorithm Pattern recognition EEG Sleep spindle recognition
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Abstract	In this paper, we introduce a two-stage procedure based on artificial neural networks for the automatic recognition of sleep spindles (SSs) in a multi-channel electroencephalographic signal. In the first stage, a discrete perceptron is used to eliminate definite non-SSs. The pre-classification done in the first stage not only reduces the computation time but also increases the overall detection performance of the procedure. In the second stage, the remaining SS candidates after pre-classification procedure are aimed to be separated from each other by an artificial neural network that would function as a post-classifier. Two different networks, i.e. a backpropagation multilayer perceptron and radial basis support vector machine (SVM), are proposed as the post-classifier and compared in terms of their classification performances. Visual evaluation, by two electroencephalographers (EEGers), of 19 channel EEG records of 6 subjects showed that the best performance is obtained with a radial basis SVM providing an average sensitivity of 94.6% and an average false detection rate of 4.0%.
AbstractList	In this paper, we introduce a two-stage procedure based on artificial neural networks for the automatic recognition of sleep spindles (SSs) in a multi-channel electroencephalographic signal. In the first stage, a discrete perceptron is used to eliminate definite non-SSs. The pre-classification done in the first stage not only reduces the computation time but also increases the overall detection performance of the procedure. In the second stage, the remaining SS candidates after pre-classification procedure are aimed to be separated from each other by an artificial neural network that would function as a post-classifier. Two different networks, i.e. a backpropagation multilayer perceptron and radial basis support vector machine (SVM), are proposed as the post-classifier and compared in terms of their classification performances. Visual evaluation, by two electroencephalographers (EEGers), of 19 channel EEG records of 6 subjects showed that the best performance is obtained with a radial basis SVM providing an average sensitivity of 94.6% and an average false detection rate of 4.0%.
Author	Güzeliş, Cüneyt Acır, Nurettin
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Cites_doi	10.1016/S0304-3940(98)00851-9 10.1016/0013-4694(93)90149-P 10.1097/00004691-199607000-00004 10.1016/0013-4694(75)90269-2 10.1177/155005949402500108 10.1159/000116083 10.1097/00004691-198501000-00001 10.1016/0006-8993(93)90579-C 10.1093/sleep/4.4.385 10.1097/00004691-199607000-00003 10.1093/sleep/5.1.73 10.1016/S1388-2457(02)00237-7
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SubjectTerms	Backpropagation algorithm EEG Pattern recognition Sleep spindle recognition Support vector machines
Title	Automatic recognition of sleep spindles in EEG by using artificial neural networks
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