An end-end arrhythmia diagnosis model based on deep learning neural network with multi-scale feature extraction
- PMID: 37393423
- DOI: 10.1007/s13246-023-01286-9
An end-end arrhythmia diagnosis model based on deep learning neural network with multi-scale feature extraction
Abstract
This study presents an innovative end-to-end deep learning arrhythmia diagnosis model that aims to address the problems in arrhythmia diagnosis. The model performs pre-processing of the heartbeat signal by automatically and efficiently extracting time-domain, time-frequency-domain and multi-scale features at different scales. These features are imported into an adaptive online convolutional network-based classification inference module for arrhythmia diagnosis. Experimental results show that the AOCT-based deep learning neural network diagnostic module has excellent parallel computing and classification inference capabilities, and the overall performance of the model improves with increasing scales. In particular, when multi-scale features are used as inputs, the model is able to learn both time-frequency domain information and other rich information, thus significantly improving the performance of the end-to-end diagnostic model. The final results show that the AOCT-based deep learning neural network model has an average accuracy of 99.72%, a recall of 99.62%, and an F1 score of 99.3% in diagnosing four common heart diseases.
Keywords: Adaptive online convolutional network in time (AOCT); Diagnosis model; End-to-end deep learning arrhythmia; Feature engineering; Heartbeat rhythm signal; Multi-scale features.
© 2023. Australasian College of Physical Scientists and Engineers in Medicine.
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