Litcius/Paper detail

SleepXAI: An explainable deep learning approach for multi-class sleep stage identification

Micheal Dutt, Surender Redhu, Morten Goodwin, Christian W. Omlin

2022Applied Intelligence49 citationsDOIOpen Access PDF

Abstract

Abstract Extensive research has been conducted on the automatic classification of sleep stages utilizing deep neural networks and other neurophysiological markers. However, for sleep specialists to employ models as an assistive solution, it is necessary to comprehend how the models arrive at a particular outcome, necessitating the explainability of these models. This work proposes an explainable unified CNN-CRF approach (SleepXAI) for multi-class sleep stage classification designed explicitly for univariate time-series signals using modified gradient-weighted class activation mapping (Grad-CAM). The proposed approach significantly increases the overall accuracy of sleep stage classification while demonstrating the explainability of the multi-class labeling of univariate EEG signals, highlighting the parts of the signals emphasized most in predicting sleep stages. We extensively evaluated our approach to the sleep-EDF dataset, and it demonstrates the highest overall accuracy of 86.8% in identifying five sleep stage classes. More importantly, we achieved the highest accuracy when classifying the crucial sleep stage N1 with the lowest number of instances, outperforming the state-of-the-art machine learning approaches by 16.3%. These results motivate us to adopt the proposed approach in clinical practice as an aid to sleep experts.

Topics & Concepts

Computer scienceUnivariateSleep (system call)Artificial intelligenceClass (philosophy)Sleep StagesMachine learningIdentification (biology)Stage (stratigraphy)Deep learningArtificial neural networkElectroencephalographyPattern recognition (psychology)Multivariate statisticsPolysomnographyPsychologyPaleontologyOperating systemPsychiatryBiologyBotanyEEG and Brain-Computer InterfacesECG Monitoring and AnalysisSleep and Wakefulness Research