We propose a deep neural architecture that performs uncertainty-aware multi-view classification of arrhythmia from ECG. Our method learns two different views (1D and 2D) of single-lead ECG to capture different types of information. We use a fusion technique to reduce the conflict between the different views caused by noise and artifacts in ECG data, thus incorporating uncertainty to obtain stronger final predictions. Our framework contains the following three modules (1) a time-series module to learn the morphological features from ECG; (2) an image-space learning module to learn the spatiotemporal features; and (3) the uncertainty-aware fusion module to fuse the information from the two different views. Experimental results on two real-world datasets demonstrate that our framework not only improves the performance on arrhythmia classification compared to the state-of-the-art but also shows better robustness to noise and artifacts present in ECG.
View on arXiv@article{ashhad2025_2506.06342,
title={ Uncertainty-Aware Multi-view Arrhythmia Classification from ECG },
author={ Mohd Ashhad and Sana Rahmani and Mohammed Fayiz and Ali Etemad and Javad Hashemi },
journal={arXiv preprint arXiv:2506.06342},
year={ 2025 }
}