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A Stochastic Resonance Electrocardiogram Enhancement Algorithm for Robust QRS Detection

Cihan Berk Güngör, Patrick P. Mercier, Hakan Töreyin

2022IEEE Journal of Biomedical and Health Informatics22 citationsDOI

Abstract

This study presents a new QRS detection algorithm making use of the background noise that is inevitably present in electrocardiogram (ECG) recordings. The algorithm suppresses noise, enhances the QRS-waves, and applies a threshold for QRS detection. Noise suppression and QRS enhancement are performed by a band-pass filter stage followed by a nonlinear stage based on the interaction of a particle inside an underdamped monostable potential well. The nonlinear stage maximizes the output when there is a QRS-wave and minimizes the output otherwise. One of the instruments that the nonlinear stage uses to enhance the QRS-waves is stochastic resonance, where the output is maximized for a non-zero intensity background noise. In terms of QRS-wave detection F1 score, which ranges from 98.87% to 99.99% on four major benchmarking databases (MIT-BIH Arrhythmia, QT, European ST-T, and MIT-BIH Noise Stress Test), the algorithm outperforms all existing ECG processing algorithms. The study, for the first time, demonstrates QRS-enhancement by facilitating stochastic resonance while suppressing in-band noise of ECG signals. Detecting QRS-waves as the ECG data streams, having a complexity of O(n), and not requiring any training data make the algorithm convenient for real-time ECG monitoring applications with limited computational resources.

Topics & Concepts

QRS complexComputer scienceAlgorithmNoise (video)Nonlinear filterArtificial intelligenceStochastic resonanceNonlinear systemPattern recognition (psychology)Filter (signal processing)Speech recognitionPhysicsCardiologyMedicineFilter designComputer visionImage (mathematics)Quantum mechanicsECG Monitoring and AnalysisCardiac electrophysiology and arrhythmiasAnalog and Mixed-Signal Circuit Design
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