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Comput Methods Programs Biomed


Title:A self-adjusting ant colony clustering algorithm for ECG arrhythmia classification based on a correction mechanism
Author(s):Li N; Liu L; Yang Z; Qin S;
Address:"Xi'an University of Technology, Xi'an, China. Electronic address: lining83@xaut.edu.cn. Xi'an Technological University, Xi'an, China. The Second Affiliate Hospital of Xi'an Jiaotong University, Xi'an, China"
Journal Title:Comput Methods Programs Biomed
Year:2023
Volume:20230330
Issue:
Page Number:107519 -
DOI: 10.1016/j.cmpb.2023.107519
ISSN/ISBN:1872-7565 (Electronic) 0169-2607 (Linking)
Abstract:"BACKGROUND AND OBJECTIVE: As a representative type of cardiovascular disease, persistent arrhythmias can often become life-threatening. In recent years, machine learning-based ECG arrhythmia classification aided methods have been effective in assisting physicians with their diagnosis, but these methods have problems such as complex model structures, poor feature perception ability, and low classification accuracy. METHODS: In this paper, a self-adjusting ant colony clustering algorithm for ECG arrhythmia classification based on a correction mechanism is proposed. This method does not distinguish between subjects when establishing the dataset in order to reduce the effect of differences in ECG signal features between individuals, thus improving the robustness of the model. When the classification is achieved, a correction mechanism is introduced to correct outliers caused by the accumulation of errors in the classification process in order to improve the classification accuracy of the model. According to the principle that the flow rate of gas can be increased under the convergence channel, a dynamically updated pheromone volatilization coefficient rho, namely the increased flow rate rho, is introduced to help the model converge more stably and faster. As the ants move, the next transfer target is selected by a truly self-adjusting transfer method, and the transfer probability is dynamically adjusted according to the pheromone concentration and the path distance. RESULTS: Based on the MIT-BIH arrhythmia dataset, the new algorithm achieved classification of five heart rhythm types, with an overall accuracy of 99.00%. Compared to other experimental models, the classification accuracy of the proposed method represents a 0.2% to 16.6% improvement, and compared to other current studies, the classification accuracy of the proposed method is 0.65% to 7.5% better. CONCLUSIONS: This paper addresses the shortcomings of ECG arrhythmia classification methods based on feature engineering, traditional machine learning and deep learning, and presents a self-adjusting ant colony clustering algorithm for ECG arrhythmia classification based on a correction mechanism. Experiments demonstrate the superiority of the proposed method compared to basic models as well as those with improved partial structures. Furthermore, the proposed method achieves very high classification accuracy with a simple structure and fewer iterations than other current methods"
Keywords:"Humans *Electrocardiography/methods Algorithms Arrhythmias, Cardiac/diagnosis *Cardiovascular Diseases Cluster Analysis Signal Processing, Computer-Assisted Ant colony clustering Correction mechanism ECG arrhythmia classification Self-adjusting transfer m;"
Notes:"MedlineLi, Ning Liu, Linyue Yang, Zhengqiang Qin, Shuguang eng Ireland 2023/04/12 Comput Methods Programs Biomed. 2023 Jun; 235:107519. doi: 10.1016/j.cmpb.2023.107519. Epub 2023 Mar 30"

 
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