Deep learning for sleep stages classification: modified rectified linear unit activation function and modified orthogonal weight initialisation

Deep learning for sleep stages classification: modified rectified linear unit activation function and modified orthogonal weight initialisation

Each stage of sleep can affect human health, and not getting enough sleep at any stage may lead to sleep disorder like parasomnia, apnea, insomnia, etc. Sleep-related diseases could be diagnosed using Convolutional Neural Network Classifier. However, this classifier has not been successfully impleme...

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Bibliographic Details
Published in:Multimedia tools and applications Vol. 81; no. 7; pp. 9855 - 9874
Main Authors: Bhusal, Akriti, Alsadoon, Abeer, Prasad, P. W. C., Alsalami, Nada, Rashid, Tarik A.
Format: Journal Article
Language:English
Published: New York Springer US 01-03-2022
Springer Nature B.V
Subjects:
Accuracy
Artificial neural networks
Classification
Classifiers
Computer Communication Networks
Computer Science
Convergence
Data Structures and Information Theory
Deep learning
Health care facilities
Insomnia
Machine learning
Multimedia Information Systems
Neural networks
Optimization
Saturation
Sleep
Special Purpose and Application-Based Systems
Adam optimisation
Sleep stage classification
Leaky rectified linear unit
Orthogonal CNN
Convolutional neural network
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Summary:Each stage of sleep can affect human health, and not getting enough sleep at any stage may lead to sleep disorder like parasomnia, apnea, insomnia, etc. Sleep-related diseases could be diagnosed using Convolutional Neural Network Classifier. However, this classifier has not been successfully implemented into sleep stage classification systems due to high complexity and low accuracy of classification. The aim of this research is to increase the accuracy and reduce the learning time of Convolutional Neural Network Classifier. The proposed system used a modified Orthogonal Convolutional Neural Network and a modified Adam optimisation technique to improve the sleep stage classification accuracy and reduce the gradient saturation problem that occurs due to sigmoid activation function. The proposed system uses Leaky Rectified Linear Unit (ReLU) instead of sigmoid activation function as an activation function. The proposed system called Enhanced Sleep Stage Classification system (ESSC) used six different databases for training and testing the proposed model on the different sleep stages. These databases are University College Dublin database (UCD), Beth Israel Deaconess Medical Center MIT database (MIT-BIH), Sleep European Data Format (EDF), Sleep EDF Extended, Montreal Archive of Sleep Studies (MASS), and Sleep Heart Health Study (SHHS). Our results show that the gradient saturation problem does not exist anymore. The modified Adam optimiser helps to reduce the noise which in turn result in faster convergence time. The convergence speed of ESSC is increased along with better classification accuracy compared to the state of art solution.
ISSN:1380-7501
1573-7721
DOI:10.1007/s11042-022-12372-7