NDLI: A Smart Health (sHealth)-Centric Method toward Estimation of Sleep Deficiency Severity from Wearable Sensor Data Fusion

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A Smart Health (sHealth)-Centric Method toward Estimation of Sleep Deficiency Severity from Wearable Sensor Data Fusion

Content Provider	MDPI
Author	Rahman, Juber Morshed, Bashir I. Preza, Chrysanthe
Copyright Year	2021
Description	Sleep deficiency impacts the quality of life and may have serious health consequences in the long run. Questionnaire-based subjective assessment of sleep deficiency has many limitations. On the other hand, objective assessment of sleep deficiency is challenging. In this study, we propose a polysomnography-based mathematical model for computing baseline sleep deficiency severity score and then investigated the estimation of sleep deficiency severity using features available only from wearable sensor data including heart rate variability and single-channel electroencephalography for a dataset of 500 subjects. We used Monte-Carlo feature selection (MCFS) and inter-dependency discovery for selecting the best features and removing multi-collinearity. For developing the Regression model we investigated both the frequentist and the Bayesian approaches. An artificial neural network achieved the best performance of RMSE = 5.47 and an R-squared value of 0.67 for sleep deficiency severity estimation. The developed method is comparable to conventional methods of Functional Outcome of Sleep Questionnaire and Epworth Sleepiness Scale for assessing the impact of sleep apnea on sleep deficiency. Moreover, the results pave the way for reliable and interpretable sleep deficiency severity estimation using single-channel EEG.
Ending Page	126
Page Count	21
Starting Page	106
e-ISSN	26737426
DOI	10.3390/biomedinformatics1030008
Journal	BioMedInformatics
Issue Number	3
Volume Number	1
Language	English
Publisher	MDPI
Publisher Date	2021-10-26
Access Restriction	Open
Subject Keyword	BioMedInformatics Biomedinformatics Medical Informatics Artificial Neural Network Bayesian Regression Electroencephalography Monte-carlo Method Regression Sleep Deficiency Severity Smart Health Wearable Sensor
Content Type	Text
Resource Type	Article

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