Department of Electrical & Electronic Engineering, The University of Melbourne, Australia.
Physiol Meas. 2020 Aug 11;41(7):075013. doi: 10.1088/1361-6579/ab9482.
Sleep quality has a significant impact on human mental and physical health. The detection of sleep-wake states is thus of paramount importance in the study of sleep. The gold standard method for sleep-wake classification is multi-sensor-based polysomnography (PSG) which is normally recorded in a clinical setting. The main drawbacks of PSG are the inconvenience to the subjects, the impact of discomfort on normal sleep cycles, and its requirement for experts' interpretation. In contrast, we aim to design an automated approach for sleep-wake classification using a wearable fingertip photoplethysmographic (PPG) signal.
Time domain features are extracted from PPG and PPG-based surrogate cardiac signals for sleep-wake classification. A minimal-redundancy-maximal-relevance feature selection algorithm is employed to reduce irrelevant and redundant features.
A support vector machine (SVM)-based supervised machine-learning classifier is then used to classify sleep and wake states. The model is trained using 70% of the events (6575 sleep-wake events) from the dataset, and the remaining 30% of events (2818 sleep-wake events) are used for evaluating the performance of the model. Furthermore, the proposed model demonstrates a comparable performance (accuracy 81.10%, sensitivity 81.06%, specificity 82.50%, precision 99.37%, and F score 81.74%) with respect to the existing uni-modal and multi-modal methods for sleep-wake classification.
This result advocates the potential of wearable PPG-based sleep-wake classification. A wearable PPG-based system would help in continuous, non-invasive monitoring of sleep quality.
睡眠质量对人类身心健康有重大影响。因此,睡眠觉醒状态的检测在睡眠研究中至关重要。睡眠觉醒分类的金标准方法是基于多传感器的多导睡眠图(PSG),通常在临床环境中记录。PSG 的主要缺点是对受试者不方便,对正常睡眠周期的不适影响,以及需要专家解释。相比之下,我们旨在设计一种使用可穿戴指尖光体积描记(PPG)信号进行睡眠觉醒分类的自动化方法。
从 PPG 和基于 PPG 的替代心搏信号中提取时域特征,用于睡眠觉醒分类。采用最小冗余最大相关性特征选择算法来减少不相关和冗余特征。
然后使用基于支持向量机(SVM)的监督机器学习分类器对睡眠和觉醒状态进行分类。该模型使用数据集的 70%的事件(6575 个睡眠-觉醒事件)进行训练,其余 30%的事件(2818 个睡眠-觉醒事件)用于评估模型的性能。此外,所提出的模型在睡眠-觉醒分类方面表现出与现有单模态和多模态方法相当的性能(准确率为 81.10%,灵敏度为 81.06%,特异性为 82.50%,精度为 99.37%,F 分数为 81.74%)。
这一结果证明了基于可穿戴 PPG 的睡眠觉醒分类的潜力。基于可穿戴 PPG 的系统将有助于对睡眠质量进行连续、非侵入性监测。
