Peiliang Zhang scite author profile

Background Heart disease diagnosis is a challenging task and it is important to explore useful information from the massive amount of electrocardiogram (ECG) records of patients. The high-precision diagnostic identification of ECG can save clinicians and cardiologists considerable time while helping reduce the possibility of misdiagnosis at the same time.Currently, some deep learning-based methods can effectively perform feature selection and classification prediction, reducing the consumption of manpower. Methods In this work, an end-to-end deep learning framework based on convolutional neural network (CNN) is proposed for ECG signal processing and arrhythmia classification. In the framework, a transformer network is embedded in CNN to capture the temporal information of ECG signals and a new link constraint is introduced to the loss function to enhance the classification ability of the embedding vector. Results To evaluate the proposed method, extensive experiments based on real-world data were conducted. Experimental results show that the proposed model achieve better performance than most baselines. The experiment results also proved that the transformer network pays more attention to the temporal continuity of the data and captures the hidden deep features of the data well. The link constraint strengthens the constraint on the embedded features and effectively suppresses the effect of data imbalance on the results. Conclusions In this paper, an end-to-end model is used to process ECG signal and classify arrhythmia. The model combine CNN and Transformer network to extract temporal information in ECG signal and is capable of performing arrhythmia classification with acceptable accuracy. The model can help cardiologists perform assisted diagnosis of heart disease and improve the efficiency of healthcare delivery.

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Effects of various organic carbon sources on the growth and biochemical composition of Chlorella pyrenoidosa

Zhang

Sun

et al. 2014

Bioresource Technology

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CYFRA21-1 can predict the sensitivity to chemoradiotherapy of non-small-cell lung carcinoma

Wang

et al. 2010

Biomarkers

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Diagnostic and predictive significance of serum microRNA-7 in esophageal squamous cell carcinoma

Wang

et al. 2015

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RDFNet: A Fast Caries Detection Method Incorporating Transformer Mechanism

Jiang

Zhang

Che

et al. 2021

Computational and Mathematical Methods in Medicine

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Dental caries is a prevalent disease of the human oral cavity. Given the lack of research on digital images for caries detection, we construct a caries detection dataset based on the caries images annotated by professional dentists and propose RDFNet, a fast caries detection method for the requirement of detecting caries on portable devices. The method incorporates the transformer mechanism in the backbone network for feature extraction, which improves the accuracy of caries detection and uses the FReLU activation function for activating visual-spatial information to improve the speed of caries detection. The experimental results on the image dataset constructed in this study show that the accuracy and speed of the method for caries detection are improved compared with the existing methods, achieving a good balance in accuracy and speed of caries detection, which can be applied to smart portable devices to facilitate human dental health management.

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Peiliang Zhang

Constrained transformer network for ECG signal processing and arrhythmia classification

Effects of various organic carbon sources on the growth and biochemical composition of Chlorella pyrenoidosa

CYFRA21-1 can predict the sensitivity to chemoradiotherapy of non-small-cell lung carcinoma

Diagnostic and predictive significance of serum microRNA-7 in esophageal squamous cell carcinoma

RDFNet: A Fast Caries Detection Method Incorporating Transformer Mechanism

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