Deep-Learning Premature Contraction Localization Using Gaussian Based Predicted Data

conference paper

English

Detection of cardiac arrhythmias is still an ongoing challenge. Here we focus on premature ventricular contraction (PVC) and premature atrial contraction (PAC) and introduce a deep-learning-based method for PVC/PAC localization in ECG. Our method is based on involving the time series with non-zero values corresponding to the ground truth PVC/PAC positions into the training process. To improve the efficiency of deep model training, the transition between the non-zero and zero areas in the train output time series was smoothed by introducing a Gaussian function. When applied to the new ECGs, the output signal (time series including Gaussians) is processed by a robust peak detector with Bayesian optimization of threshold, minimal distance and peak prominence. Positions of the detected peaks correspond to the desired PVC/PAC positions. The proposed method was evaluated on China Physiological Signal Challenge 2018 (CPSC2018) using own-created ground truth positions of PVC/PAC. The proposed method reached F1 score 0.923 and 0.688 for PAC and PVC, respectively, which is better than our previous results obtained via multiple instance learning-based method.

ECG; premature contraction; convolutional neural network; deep learning

NOVOTNÁ, P.; VIČAR, T.; HEJČ, J.; RONZHINA, M.

18. 11. 2021

Computing in Cardiology 2021

2325-887X

Computing in Cardiology

United States of America

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https://www.cinc.org/archives/2021/pdf/CinC2021-179.pdf