Abstract

This research proposes an algorithm to preprocess photoplethysmography (PPG) and electrocardiogram (ECG) signals and apply the processed signals to the context aggregation network-based deep learning to achieve higher accuracy of continuous systolic and diastolic blood pressure monitoring than other reported algorithms. The preprocessing method consists of the following steps: (1) acquiring the PPG and ECG signals for a two second window at a sampling rate of 125 Hz; (2) separating the signals into an array of 250 data points corresponding to a 2 s data window; (3) randomizing the amplitude of the PPG and ECG signals by multiplying the 2 s frames by a random amplitude constant to ensure that the neural network can only learn from the frequency information accommodating the signal fluctuation due to instrument attachment and installation; (4) Fourier transforming the windowed PPG and ECG signals obtaining both amplitude and phase data; (5) normalizing both the amplitude and the phase of PPG and ECG signals using z-score normalization; and (6) training the neural network using four input channels (the amplitude and the phase of PPG and the amplitude and the phase of ECG), and arterial blood pressure signal in time-domain as the label for supervised learning. As a result, the network can achieve a high continuous blood pressure monitoring accuracy, with the systolic blood pressure root mean square error of 7 mmHg and the diastolic root mean square error of 6 mmHg. These values are within the error range reported in the literature. Note that other methods rely only on mathematical models for the systolic and diastolic values, whereas the proposed method can predict the continuous signal without degrading the measurement performance and relying on a mathematical model.

Highlights

  • We propose a pre-signal conditioning method to improve the accuracy of the systolic and diastolic blood pressure measurement by combining the context aggregation network architecture and the preprocessed PPG-ECG signals

  • It will be shown in the results and discussion later that the proposed method can provide a higher accuracy blood pressure estimation than the other methods reported in the literature for all the ranges of the blood pressures, ranging from 90 mmHg to 180 mmHg, and 60 mmHg to 75 mmHg, for systolic and diastolic blood pressures, respectively

  • The studies have shown the mathematical relationship between ECG, PPG, and the blood pressure signals, which can be utilized as an alternative way of a cuff-less measurement of the systolic and diastolic blood pressure

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Summary

Introduction

Blood pressure is the heart’s force to pump blood through the body [1]. This medical parameter is dependent on many physiological and mental factors, such as age, body mass index (BMI), and even stress level [2]. Blood pressure is often measured for two values: systolic and diastolic blood pressure; these numbers are essential parameters for medical analysis. One of the most serious and common conditions that people encounter is having significantly high blood pressure, known as hypertension [3]. People with hypertension usually have a high chance of encountering potentially fatal conditions such as a stroke or heart attack [4]. Abnormally high blood pressure cannot be cured; it can be managed by a healthy lifestyle change, or by taking medication, and can be prevented by frequently checking the blood pressure [5,6]

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