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IEEE ICEACE 2024Published

Machine Learning Approaches in Photoplethysmography-Based Sleep Stage Classification

IEEE ICEACE 2024 · Dhaka, Bangladesh · March 3, 2025

IEEE ICEACE 2024 paper: benchmarks ML algorithms for PPG-based sleep staging, establishing accuracy/efficiency trade-offs for signal-only, resource-constrained setups.

Authors

Ferdous, T., Karim, R. U., et al. — Co-author

Contribution

Benchmarks multiple ML algorithms for PPG-based sleep staging, establishing accuracy/efficiency trade-offs for resource-constrained, signal-only setups.

Abstract

Multi-stage sleep classification is crucial in diagnosing sleep disorders and in evaluating sleep quality, but conventional polysomnography techniques are intrusive and time consuming. This paper examines whether continuous sleep monitoring is feasible using single-sensor-based photoplethysmography (PPG). Several machine learning classifiers including Random Forest, CatBoost, XGBoost, and SVM are used to identify the impact of sleep staging on PPG. These models can perform well in classifying between 4-sleep stages with CatBoost achieving an accuracy of 75.29% similar to the findings of the traditional PSG. The study shows that the machine learning approach employed to analyze PPG signals offers a more integrated and accessible solution for real-time sleep tracking while highlighting the importance of determining the appropriate model for optimal performance.

Topics

Sleep ClassificationMachine LearningPPG SignalsSignal Processing

Cite

Ferdous, T., Karim, R. U., et al. (2024). Machine Learning Approaches in Photoplethysmography-Based Sleep Stage Classification. IEEE ICEACE 2024. https://doi.org/10.1109/ICEACE63551.2024.10898858