Enhanced tolerance-based intuitionistic fuzzy rough set theory feature selection and ResNet-18 feature extraction model for arrhythmia classification

IF 0.6 Q4 COMPUTER SCIENCE, THEORY & METHODS

Multiagent and Grid Systems Pub Date : 2023-02-03 DOI:10.3233/mgs-220317

M. Rajeshwari, K. Kavitha

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引用次数: 0

Abstract

Arrhythmia classification on Electrocardiogram (ECG) signals is an important process for the diagnosis of cardiac disease and arrhythmia disease. The existing researches in arrhythmia classification have limitations of imbalance data problem and overfitting in classification. This research applies Fuzzy C-Means (FCM) – Enhanced Tolerance-based Intuitionistic Fuzzy Rough Set Theory (ETIFRST) for feature selection in arrhythmia classification. The selected features from FCM-ETIFRST were applied to the Multi-class Support Vector Machine (MSVM) for arrhythmia classification. The ResNet18 – Convolution Neural Network (CNN) was applied for feature extraction in input signal to overcome imbalance data problem. Conventional feature extraction along with CNN features are applied for FCM-ETIFRST feature selection process. The FCM-ETIFRST method in arrhythmia classification is evaluated on MIT-BIH and CPCS 2018 dataset. The FCM-ETIFRST has 98.95% accuracy and Focal loss-CNN has 98.66% accuracy on MIT-BIH dataset. The FCM-ETIFRST method has 98.45% accuracy and Explainable Deep learning Model (XDM) method have 93.6% accuracy on CPCS 2018 dataset.

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基于耐受性的直觉模糊粗糙集理论特征选择与ResNet-18特征提取模型在心律失常分类中的应用

根据心电图信号对心律失常进行分类是心脏病和心律失常疾病诊断的重要过程。现有的心律失常分类研究存在数据不平衡、分类过拟合等问题。本研究将模糊c均值(FCM) -基于增强容忍度的直觉模糊粗糙集理论(ETIFRST)用于心律失常分类的特征选择。从FCM-ETIFRST中选择的特征应用于多类支持向量机(MSVM)进行心律失常分类。采用ResNet18 -卷积神经网络(CNN)对输入信号进行特征提取，克服数据不平衡问题。在FCM-ETIFRST特征选择过程中，采用了传统的特征提取和CNN特征。在MIT-BIH和CPCS 2018数据集上对FCM-ETIFRST方法在心律失常分类中的应用进行了评估。FCM-ETIFRST在MIT-BIH数据集上的准确率为98.95%，Focal loss-CNN的准确率为98.66%。FCM-ETIFRST方法在CPCS 2018数据集上的准确率为98.45%，可解释深度学习模型(XDM)方法的准确率为93.6%。

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来源期刊

Multiagent and Grid Systems COMPUTER SCIENCE, THEORY & METHODS-

CiteScore

1.50

自引率

0.00%

发文量