Arrhythmia detection is an important research task in healthcare, which can be accomplished by classifying ECG heartbeats. Recently, there is a growing trend of applying deep learning models to solving this problem. Most existing deep learning-based methods consist of three steps: preprocessing, heartbeat segmentation and beat-wise classification. This methodology suffers from two drawbacks. First, explicit heartbeat segmentation can undermine the simplicity of the entire model. Second, performing classification on individual heartbeats fails to take into account inter-heartbeat contextual information that may be vital to accurate classification. In view of these drawbacks, we propose a novel deep learning model that simultaneously conducts heartbeat segmentation and classification. Without explicit heartbeat segmentation, the overall workflow of our method is streamlined to be simpler than existing methods. We achieve simultaneous segmentation and classification with a Faster R-CNN-based deep network that has been customized to handle ECG data. To capture inter-heartbeat contextual information, we utilize inverted residual blocks and a novel feature fusion and normalization subroutine which incorporates average pooling and max-pooling. We conduct extensive experiments on the well-known MIT-BIH arrhythmia database to validate the effectiveness of our method in both intra- and inter-patient arrhythmia detection tasks.
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This is an extended version of our PAKDD 2020 paper Simultaneous ECG Heartbeat Segmentation and Classification with Feature Fusion and Long Term Context Dependencies. This work is funded by NSFC grant 61672161 and Dongguan Innovative Research Team Program (No. 2018607201008). We sincerely thank Prof Chun Liang and Dr Zhiqing He from Department of Cardiology, Shanghai Changzheng Hospital for their valuable advice.
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Qiu, X., Liang, S., Meng, L. et al. Exploiting feature fusion and long-term context dependencies for simultaneous ECG heartbeat segmentation and classification. Int J Data Sci Anal (2021). https://doi.org/10.1007/s41060-020-00239-9
- Arrhythmia detection
- ECG classification
- End-to-end deep neural network
- Heartbeat segmentation