Abstract
An Electrocardiogram (ECG) is a typical method used to detect heartbeat, and an ECG signal analysis enables the detection of some heart diseases. However, the ECG-based heartbeat detection requires device attachment, which is not preferred for daily use. A Doppler sensor could be a device used to enable the non-contact heartbeat detection. In this paper, we propose a Doppler sensor-based ECG signal reconstruction method by a hybrid deep learning model with Convolutional Neural Network (CNN) and Long Short-Term Memory (LSTM). An ECG signal can be reconstructed by relating features of a heartbeat signal obtained by a Doppler sensor to those of the ECG signal. Thus, we construct the deep learning model that extracts the spatial and temporal features from the heartbeat signal by CNN and LSTM. Based on the extracted features, the ECG signal is reconstructed. We conducted experiments to observe heartbeat against 9 healthy subjects without heart disease. The experimental results showed that our method performed ECG signal reconstruction with a correlation coefficient of 0.86 between the reconstructed and actual ECG signals, even without attaching devices. The results indicate that it is possible to remotely reconstruct an ECG signal from a heartbeat signal via a Doppler sensor.
Highlights
Heartbeat is one of the most important biological signals to grasp our health condition
To detect the P-wave, the T-wave, and the R-peak via a Doppler sensor, we propose an ECG signal reconstruction method by a hybrid deep learning model with Convolutional Neural Network (CNN) and Long Short-Term Memory (LSTM)
LIMITATION OF PROPOSED METHOD Our method might not always achieve the good performance of the ECG signal reconstruction, in particular for the types of ECG signal waveforms that are not considered for the training of the model
Summary
Heartbeat is one of the most important biological signals to grasp our health condition. It is possible to measure the velocity and direction of the target’s motion by analyzing the received signal Based on this principle, the use of a Doppler sensor has been investigated in various fields such as heartbeat detection [10]–[23], respiration detection [24]–[26], and activity recognition [27]–[29]. K. Yamamoto et al.: ECG Signal Reconstruction via Doppler Sensor by Hybrid Deep Learning Model With CNN and LSTM. To detect the P-wave, the T-wave, and the R-peak via a Doppler sensor, we propose an ECG signal reconstruction method by a hybrid deep learning model with Convolutional Neural Network (CNN) and Long Short-Term Memory (LSTM).
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