A single-channel EEG based automatic sleep stage classification method leveraging deep one-dimensional convolutional neural network and hidden Markov model

Yang, Bufang; Zhu, Xilin; Liu, Yitian; Liu, Hongxing

doi:10.1016/j.bspc.2021.102581

Cited by 63 publications

(32 citation statements)

References 37 publications

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“…The accuracy of this model is 83,8%, which is 0.4% lower than that of the MLTCN model. Yang et al [ 10 ] utilized HMM to learn the temporal features of long epochs and obtained an accuracy of 83.98%, but did not consider the intra-epoch temporal features, and the performance was lower than that of MLTCN. MLTCN learns the three-level temporal features from intra-epoch, adjacent epochs, and long epochs at the same time.…”

Section: Discussionmentioning

confidence: 99%

“…ese signals are divided into 30-second epochs, and sleep specialists manually label each epoch according to some standard criteria, such as the American Academy of Sleep Medicine (AASM) rules [2] or Rechtscha en and Kales rules [3]. According to the AASM rules, each epoch is classi ed into one of the ve stages: Wake, REM, N 1 , N 2 , and N [7][8][9][10][11][12][13] and time-frequency images [14,15]. Tsinalis et al [7] used the raw EEG signals to learn features and the relationship between features by two-layer convolutions and pooling.…”

Section: Introductionmentioning

confidence: 99%

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A Multilevel Temporal Context Network for Sleep Stage Classification

Xu³

2022

Computational Intelligence and Neuroscience

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Sleep stage classification is essential in diagnosing and treating sleep disorders. Many deep learning models have been proposed to classify sleep stages by automatic learning features and temporal context information. These temporal context features come from the intra-epoch temporal features, which represent the overall morphology of an epoch, and temporal features of adjacent epochs and long epochs, which represent the influence between epochs. However, most existing methods do not fully use the complementarity of the three-level temporal features, resulting in incomplete extracted temporal features. To solve this problem, we propose a multilevel temporal context network (MLTCN) to learn the temporal features from intra-epoch, adjacent epochs, and long epochs, which utilizes the complete temporal features to improve classification accuracy. We evaluate the performance of the proposed model on the Sleep-EDF datasets published in 2013 and 2018. The experimental results show that our MLTCN can achieve an overall accuracy of 84.2% and a kappa coefficient of 0.78 on the Sleep-EDF-2013 dataset. On the larger Sleep-EDF-2018 dataset, the overall accuracy is 81.0%, and a kappa coefficient is 0.74. Our model can better assist sleep experts in diagnosing sleep disorders.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A Multilevel Temporal Context Network for Sleep Stage Classification

Xu³

2022

Computational Intelligence and Neuroscience

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“…Meanwhile, because of its ability to learn high-dimensional and hierarchical features directly from large amounts of data, it is becoming significant in sleep staging. For example, in [16], Jadhav et al used the wave transform (WT) combined with migration learning to automatically exploit the time-frequency spectrum of EEGs without manual feature extraction, which achieves an accuracy of 83.17%; Afterwards, it combined with multiple classifiers to classify the extracted features, reaching an accuracy of 91.31%; In [17], Tsinalis et al constructed a CNN-based neural network to implement end-to-end learning of raw EEG and finally achieve an average accuracy of 82% and an overall accuracy of 74%; In [18], VGG-16 is used for spectrogramming of EEG and achieves an accuracy of 86%; Yang et al [19] used one-dimensional CNN to automatically extract features from the raw EEG with HMM for classification which receives an accuracy of 83.98%; In [20], Seo et al used a deep CNN-based on a modified ResNet-50 to extract sleep-related features and a two-layer BIL-STM to learn the transition rules between sleep stages to achieve end-to-end learning. Zhang et al proposed a new unsupervised CNN in [21] to automatically extract sleep-related features from physiological signals and achieved an accuracy of 83.4%.…”

Section: Related Workmentioning

confidence: 99%

“…In the meantime, the calculation methods of the overall accuracy are inconsistent. For example, in [8,19], the average accuracy of each sleep stage is taken as the final accuracy; in [33], the weighted average accuracy of each sleep stage is taken as the final accuracy. In order to make a fair comparison, in Table 7, according to the confusion matrix given by the authors and the calculation methods used in this paper, the overall accuracy and F1 score of the methods listed are recalculated.…”

Section: Comparison Experimentsmentioning

confidence: 99%

Sleep Staging Based on Multi Scale Dual Attention Network

Wang,

Lu,

Zhang

et al. 2021

Preprint

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“…In recent times, deep learning (DL) methodology namely recurrent neural network (RNN), convolution neural network (CNN), and other forms of deep neural networks (DNN) have become a common tool in pattern identification in biomedical signal processing. Long short-term memory (LSTM) method that has taken advantageous factor of sequential data learning to advance categorization performance was highly recommended for automatic nap phase [9,10].…”

Section: Introductionmentioning

confidence: 99%

Competitive Multi-Verse Optimization with Deep Learning Based Sleep Stage Classification

Hilal¹,

Al-Rasheed²,

Alzahrani³

et al. 2023

Computer Systems Science and Engineering

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Sleep plays a vital role in optimum working of the brain and the body. Numerous people suffer from sleep-oriented illnesses like apnea, insomnia, etc. Sleep stage classification is a primary process in the quantitative examination of polysomnographic recording. Sleep stage scoring is mainly based on experts' knowledge which is laborious and time consuming. Hence, it can be essential to design automated sleep stage classification model using machine learning (ML) and deep learning (DL) approaches. In this view, this study focuses on the design of Competitive Multi-verse Optimization with Deep Learning Based Sleep Stage Classification (CMVODL-SSC) model using Electroencephalogram (EEG) signals. The proposed CMVODL-SSC model intends to effectively categorize different sleep stages on EEG signals. Primarily, data pre-processing is performed to convert the actual data into useful format. Besides, a cascaded long short term memory (CLSTM) model is employed to perform classification process. At last, the CMVO algorithm is utilized for optimally tuning the hyperparameters involved in the CLSTM model. In order to report the enhancements of the CMVODL-SSC model, a wide range of simulations was carried out and the results ensured the better performance of the CMVODL-SSC model with average accuracy of 96.90%.

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A single-channel EEG based automatic sleep stage classification method leveraging deep one-dimensional convolutional neural network and hidden Markov model

Cited by 63 publications

References 37 publications

A Multilevel Temporal Context Network for Sleep Stage Classification

A Multilevel Temporal Context Network for Sleep Stage Classification

Sleep Staging Based on Multi Scale Dual Attention Network

Competitive Multi-Verse Optimization with Deep Learning Based Sleep Stage Classification

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