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Reconstructing QRS Complex From PPG by Transformed Attentional Neural Networks

Hong-Yu Chiu, Hong-Han Shuai, Paul C.-P. Chao

2020IEEE Sensors Journal40 citationsDOI

Abstract

Technology that translates photoplethysmogram (PPG) into the QRS complex of electrocardiogram (ECG) would be transformative for people who require continuously monitoring. However, directly decoding the QRS complex of ECG from PPG is challenging because PPG signals usually have different offsets due to 1) different devices, and 2) personal differences, which makes the alignment difficult. In this paper, we make the first attempt to reconstruct the QRS complex of ECG only from the recording of PPG by an end-to-end deep learning-based approach. Specifically, we propose a novel encoder-decoder architecture containing three components: 1) a sequence transformer network which automatically calibrates the offset, 2) an attention network, which dynamically identifies regions of interest, and 3) a new QRS complex-enhanced loss for better reconstruction. The experiment results on a real dataset demonstrate the effectiveness of the proposed method: 3.67% R peak failure rate of the reconstructed ECG and high correlation of pulse transit time between the reconstructed QRS complex and the groundtruth QRS complex (ρ = 0.844), which creates a new opportunity for low-cost clinical studies via the waveform-level reconstruction of the QRS complex of ECG from PPG.

Topics & Concepts

QRS complexComputer sciencePhotoplethysmogramArtificial intelligenceOffset (computer science)Pattern recognition (psychology)Deep learningEncoderArtificial neural networkComputer visionSpeech recognitionCardiologyMedicineFilter (signal processing)Operating systemProgramming languageNon-Invasive Vital Sign MonitoringECG Monitoring and AnalysisEEG and Brain-Computer Interfaces
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