ECG-TEM: Time-based sub-Nyquist sampling for ECG signal reconstruction and Hardware Prototype

TL;DR

This paper introduces a power-efficient, time-based sub-Nyquist sampling method for ECG signals using an integrate-and-fire time-encoding machine, enabling accurate reconstruction with low sampling rates suitable for portable heart rate monitors.

Contribution

It develops a novel ECG sampling and reconstruction technique leveraging VPW-FRI pulses and hardware implementation of IF-TEM, reducing power consumption and sampling rate for portable ECG devices.

Findings

Achieves ECG reconstruction at 0.025-0.05 of Nyquist rate

Hardware prototype validates practical applicability

Robust performance in noisy environments

Abstract

Portable heart rate monitoring (HRM) systems based on electrocardiograms (ECGs) have become increasingly crucial for preventing lifestyle diseases. For such portable systems, minimizing power consumption and sampling rate is critical due to the substantial data generated during long-term ECG monitoring. The variable pulse-width finite rate of innovation (VPW-FRI) framework provides an effective solution for low-rate sampling and compression of ECG signals. We develop a time-based sub-Nyquist sampling and reconstruction method for ECG signals specifically designed for HRM applications. Our approach harnesses the integrate-and-fire time-encoding machine (IF-TEM) as a power-efficient, time-based, asynchronous sampler, generating a sequence of time instants without the need for a global clock. The ECG signal is represented as a linear combination of VPW-FRI pulses, which is then subjected to pre-filtering before being sampled by the IF-TEM sampler. A compactly supported robust filter with a frequency-domain alias cancellation condition is used to combat the effects of noise. Our reconstruction process involves consecutive partial summations of discrete representations of the input signal derived from the series of time encodings, further enhancing the accuracy of the reconstructed ECG signals. Additionally, we introduce an IF-TEM sampling hardware system for ECG signals, implemented using an analog filter device. The firing rate is 42-80Hz, equivalent to approximately 0.025-0.05 of the Nyquist rate. Our hardware validation bridges the gap between theory and practice and demonstrates the robust performance and practical applicability of our approach in accurately monitoring heart rates and reconstructing ECG signals.