193.174.19.232<HTML><HEAD><TITLE>Abstract: H. Zhang, C. Liu, F. Tang, M. Li, D. Zhang, L. Xia, N. Zhao, S. Li, S. Crozier, W. Xu, F. Liu (2022)</TITLE></HEAD><BODY BGCOLOR="#EEDFCC"><p>
<small> Frontiers in Physiology, 13, 956320p.  (2022) <a href="http://dx.doi.org/10.3389/fphys.2022.956320" target="_blank">DOI:10.3389/fphys.2022.956320</a></small
><h2>Cardiac Arrhythmia classification based on 3D recurrence plot analysis and deep learning</h2>
<strong>H. Zhang, C. Liu, F. Tang, M. Li, D. Zhang, L. Xia, N. Zhao, S. Li, S. Crozier, W. Xu, F. Liu</strong><br>
<hr><p>Artificial intelligence (AI) aided cardiac arrhythmia (CA) classification has been an emerging research topic. Existing AI-based classification methods commonly analyze electrocardiogram (ECG) signals in lower dimensions, using one-dimensional (1D) temporal signals or two-dimensional (2D) images, which, however, may have limited capability in characterizing lead-wise spatiotemporal correlations, which are critical to the classification accuracy. In addition, existing methods mostly assume that the ECG data are linear temporal signals. This assumption may not accurately represent the nonlinear, nonstationary nature of the cardiac electrophysiological process. In this work, we have developed a three-dimensional (3D) recurrence plot (RP)-based deep learning algorithm to explore the nonlinear recurrent features of ECG and Vectorcardiography (VCG) signals, aiming to improve the arrhythmia classification performance. The 3D ECG/VCG images are generated from standard 12 lead ECG and 3 lead VCG signals for neural network training, validation, and testing. The superiority and effectiveness of the proposed method are validated by various experiments. Based on the PTB-XL dataset, the proposed method achieved an average F1 score of 0.9254 for the 3D ECG-based case and 0.9350 for the 3D VCG-based case. In contrast, recently published 1D and 2D ECG-based CA classification methods yielded lower average F1 scores of 0.843 and 0.9015, respectively. Thus, the improved performance and visual interpretability make the proposed 3D RP-based method appealing for practical CA classification.</p>
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