Lajnef Tarek, Chaibi Sahbi, Ruby Perrine, Aguera Pierre-Emmanuel, Eichenlaub Jean-Baptiste, Samet Mounir, Kachouri Abdennaceur, Jerbi Karim
Sfax National Engineering School (ENIS), LETI Lab, University of Sfax, Sfax, Tunisia.
DYCOG Lab, Lyon Neuroscience Research Center, INSERM U1028, UMR 5292, University Lyon I, Lyon, France.
J Neurosci Methods. 2015 Jul 30;250:94-105. doi: 10.1016/j.jneumeth.2015.01.022. Epub 2015 Jan 25.
Sleep staging is a critical step in a range of electrophysiological signal processing pipelines used in clinical routine as well as in sleep research. Although the results currently achievable with automatic sleep staging methods are promising, there is need for improvement, especially given the time-consuming and tedious nature of visual sleep scoring.
Here we propose a sleep staging framework that consists of a multi-class support vector machine (SVM) classification based on a decision tree approach. The performance of the method was evaluated using polysomnographic data from 15 subjects (electroencephalogram (EEG), electrooculogram (EOG) and electromyogram (EMG) recordings). The decision tree, or dendrogram, was obtained using a hierarchical clustering technique and a wide range of time and frequency-domain features were extracted. Feature selection was carried out using forward sequential selection and classification was evaluated using k-fold cross-validation.
The dendrogram-based SVM (DSVM) achieved mean specificity, sensitivity and overall accuracy of 0.92, 0.74 and 0.88 respectively, compared to expert visual scoring. Restricting DSVM classification to data where both experts' scoring was consistent (76.73% of the data) led to a mean specificity, sensitivity and overall accuracy of 0.94, 0.82 and 0.92 respectively.
The DSVM framework outperforms classification with more standard multi-class "one-against-all" SVM and linear-discriminant analysis.
The promising results of the proposed methodology suggest that it may be a valuable alternative to existing automatic methods and that it could accelerate visual scoring by providing a robust starting hypnogram that can be further fine-tuned by expert inspection.
睡眠分期是临床常规以及睡眠研究中一系列电生理信号处理流程的关键步骤。尽管目前自动睡眠分期方法取得的结果很有前景,但仍有改进的必要,尤其是考虑到视觉睡眠评分既耗时又繁琐。
在此,我们提出一种睡眠分期框架,该框架基于决策树方法由多类支持向量机(SVM)分类构成。使用15名受试者的多导睡眠图数据(脑电图(EEG)、眼电图(EOG)和肌电图(EMG)记录)评估了该方法的性能。决策树或树形图通过层次聚类技术获得,并提取了广泛的时域和频域特征。使用前向顺序选择进行特征选择,并使用k折交叉验证评估分类。
与专家视觉评分相比,基于树形图的支持向量机(DSVM)的平均特异性、敏感性和总体准确率分别达到0.92、0.74和0.88。将DSVM分类限制在两位专家评分一致的数据上(占数据的76.73%),平均特异性、敏感性和总体准确率分别为0.94、0.82和0.92。
DSVM框架优于使用更标准的多类“一对多”支持向量机和线性判别分析的分类。
所提出方法的良好结果表明,它可能是现有自动方法的一种有价值的替代方案,并且通过提供一个稳健的初始睡眠图,该图可由专家检查进一步微调,从而可以加快视觉评分。
