Enhancing sleep postures classification by incorporating acceleration sensor and LSTM model

2023 IEEE Statistical Signal Processing Workshop (SSP) Pub Date : 2023-07-02 DOI:10.1109/SSP53291.2023.10208083

V. Dieu, D. Tran, Khanh-Ly Can, T. Dao, Dinh-Dat Pham, Duc-Tan Tran

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Abstract

It has been well established that sleep posture plays a key role in sleep quality monitoring. Consequently, many noncontact and wearable devices, whose systems rely on sensors such as cameras, radar, wireless, and accelerometers, have been developed to classify sleep positions and postures. However, noncontact systems were often unsuccessful when facing limited conditions such as low light and physical obstacles. On the other hand, other systems currently in research, which involves wearable devices, may have used machine learning models but have not competently exploited other more accurate deep learning models. Recognizing scope for improvement, we propose an enhanced five-sleep-posture classification system (5-SPCS) where a novel integration of accelerometer and an LSTM deep learning model can classify sleep postures more efficiently than either one of them does separately. Our experiments showed that the 5-SPCS was capable of outperforming the baselines of existing machine learning-accelerometer systems at 99.6% accuracy.

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结合加速度传感器和LSTM模型增强睡眠姿势分类

众所周知，睡眠姿势在睡眠质量监测中起着关键作用。因此，许多非接触式和可穿戴设备，其系统依赖于传感器，如摄像头，雷达，无线和加速度计，已经开发出分类睡眠姿势和姿势。然而，非接触式系统在面对诸如低光和物理障碍等有限条件时往往不成功。另一方面，目前正在研究的其他系统，包括可穿戴设备，可能已经使用了机器学习模型，但还没有很好地利用其他更准确的深度学习模型。认识到改进的范围，我们提出了一种增强的五睡眠姿势分类系统(5-SPCS)，其中加速度计和LSTM深度学习模型的新颖集成可以比单独使用它们中的任何一个更有效地分类睡眠姿势。

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2023 IEEE Statistical Signal Processing Workshop (SSP)

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