Multi-modality of polysomnography signals’ fusion for automatic sleep scoring
Yan, R., Zhang, C., Spruyt, K., Wei, L., Wang, Z., Tian, L., Li, X., Ristaniemi, T., Zhang, J., & Cong, F. (2019). Multi-modality of polysomnography signals’ fusion for automatic sleep scoring. Biomedical Signal Processing and Control, 49, 14-23. https://doi.org/10.1016/j.bspc.2018.10.001
Published in
Biomedical Signal Processing and ControlDate
2019Discipline
TietotekniikkaPsykologiaMonitieteinen aivotutkimuskeskusHyvinvoinnin tutkimuksen yhteisöMathematical Information TechnologyPsychologyCentre for Interdisciplinary Brain ResearchSchool of WellbeingCopyright
© 2018 The Author(s).
Objective: The study aims to develop an automatic sleep scoring method by fusing different polysomnography (PSG) signals and further to investigate PSG signals’ contribution to the scoring result.
Methods: Eight combinations of four modalities of PSG signals, namely electroencephalogram (EEG), electrooculogram (EOG), electromyogram (EMG), and electrocardiogram (ECG) were considered to find the
optimal fusion of PSG signals. A total of 232 features, covering statistical characters, frequency characters,
time-frequency characters, fractal characters, entropy characters and nonlinear characters, were derived
from these PSG signals. To select the optimal features for each signal fusion, four widely used feature
selection methods were compared. At the classification stage, five different classifiers were employed to
evaluate the validity of the features and to classify sleep stages.
Results: For the database in the present study, the best classifier, random forest, realized the optimal
consistency of 86.24% with the sleep macrostructures scored by the technologists trained at the Sleep
Center. The optimal accuracy was achieved by fusing four modalities of PSG signals. Specifically, the top
twelve features in the optimal feature set were respectively EEG features named zero-crossings, spectral
edge, relative power spectral of theta, Petrosian fractal dimension, approximate entropy, permutation
entropy and spectral entropy, and EOG features named spectral edge, approximate entropy, permutation
entropy and spectral entropy, and the mutual information between EEG and submental EMG. In addition,
ECG features (e.g. Petrosianfractaldimension, zero-crossings,meanvalue ofRamplitude andpermutation
entropy) were useful for the discrimination among W, S1 and R.
Conclusions: Through exploring the different fusions of multi-modality signals, the present study concluded that the multi-modality of PSG signals’ fusion contributed to higher accuracy, and the optimal
feature set was a fusion of multiple types of features. Besides, compared with manual scoring, the proposed automatic scoringmethods were cost-effective, which would alleviate the burden ofthe physicians,
speed up sleep scoring, and expedite sleep research.
...
Publisher
Elsevier BVISSN Search the Publication Forum
1746-8094Keywords
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https://converis.jyu.fi/converis/portal/detail/Publication/28752027
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