Robust CNN-based Respiration Rate Estimation for Smartwatch PPG and IMU
CoRR(2024)
摘要
Respiratory rate (RR) serves as an indicator of various medical conditions,
such as cardiovascular diseases and sleep disorders. These RR estimation
methods were mostly designed for finger-based PPG collected from subjects in
stationary situations (e.g., in hospitals). In contrast to finger-based PPG
signals, wrist-based PPG are more susceptible to noise, particularly in their
low frequency range, which includes respiratory information. Therefore, the
existing methods struggle to accurately extract RR when PPG data are collected
from wrist area under free-living conditions. The increasing popularity of
smartwatches, equipped with various sensors including PPG, has prompted the
need for a robust RR estimation method. In this paper, we propose a
convolutional neural network-based approach to extract RR from PPG,
accelerometer, and gyroscope signals captured via smartwatches. Our method,
including a dilated residual inception module and 1D convolutions, extract the
temporal information from the signals, enabling RR estimation. Our method is
trained and tested using data collected from 36 subjects under free-living
conditions for one day using Samsung Gear Sport watches. For evaluation, we
compare the proposed method with four state-of-the-art RR estimation methods.
The RR estimates are compared with RR references obtained from a chest-band
device. The results show that our method outperforms the existing methods with
the Mean-Absolute-Error and Root-Mean-Square-Error of 1.85 and 2.34, while the
best results obtained by the other methods are 2.41 and 3.29, respectively.
Moreover, compared to the other methods, the absolute error distribution of our
method was narrow (with the lowest median), indicating a higher level of
agreement between the estimated and reference RR values.
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