Automatic sleep staging based on ballistocardiographic signals recorded through bed sensors
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abstract
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This study presents different methods for automatic sleep classification based on heart rate variability (HRV), respiration and movement signals recorded through bed sensors. Two methods for feature extraction have been implemented: time variant-autoregressive model (TVAM) and wavelet discrete transform (WDT); the obtained features are fed into two classifiers: Quadratic (QD) and Linear (LD) discriminant for staging sleep in REM, nonREM and WAKE periods. The performances of all the possible combinations of feature extractors and classifiers are compared in terms of accuracy and kappa index, using clinica polysomographyc evaluation as golden standard. 17 recordings from healthy subjects, including also polisomnography, were used to train and test the algorithms. When automatic classification is compared. QD-TVAM algorithm achieved a total accuracy of 76.81 ± 7.51 %25 and kappa index of 0.55 ± 0.10, while LD-WDT achieved a total accuracy of 79 ± 10%25 and kappa index of 0.51 ± 0.17. The results suggest that a good sleep evaluation can be achieved through non-conventional recording systems that could be used outside sleep centers. © 2010 IEEE.
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Auto regressive models; Automatic classification; Discrete transforms; Feature extractor; Healthy subjects; Heart rate variability; Kappa index; Recording systems; Sleep staging; Time variant; Algorithms; Classifiers; Sensors; Sleep research; Wavelet transforms; Feature extraction; adult; algorithm; article; automated pattern recognition; bed; computer assisted diagnosis; equipment; female; human; mechanocardiography; methodology; physiology; polysomnography; reproducibility; sensitivity and specificity; sleep stage; transducer; Adult; Algorithms; Ballistocardiography; Beds; Diagnosis, Computer-Assisted; Female; Humans; Pattern Recognition, Automated; Polysomnography; Reproducibility of Results; Sensitivity and Specificity; Sleep Stages; Transducers
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