Swarajya Madhuri Rayavarapu, Tammineni Shanmukha Prasanthi, G. S. Kumar, G. Sasibhushana Rao, Gottapu Prashanti
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引用次数: 0
摘要
为了诊断一系列心脏疾病,必须对心电图(PCG)和心电图(ECG)数据进行准确评估。基于人工智能和机器学习的计算机辅助诊断在现代医学中越来越普遍,可协助临床医生做出生死攸关的决定。要为基于深度学习的技术建立框架,需要大量信息进行训练,这是医学领域的一个经验性挑战。这增加了个人信息被滥用的风险。这一问题的直接结果是,对创建合成患者数据的方法的研究激增。研究人员尝试生成合成心电图或 PCG 读数。为了平衡数据集,首先使用 LS GAN 和 Cycle GAN 在麻省理工学院-BIH 心律失常数据库上创建了心电图数据。然后,使用 VGGNet 对合成的心电信号进行心律失常分类研究。合成信号表现良好,与原始信号相似,精确度为 91.20%,召回率为 89.52%,F1 分数为 90.35%。
A GENERATIVE MODEL FOR DEEP FAKE AUGMENTATION OF PHONOCARDIOGRAM AND ELECTROCARDIOGRAM SIGNALS USING LSGAN AND CYCLE GAN
In order to diagnose a range of cardiac conditions, it is important to conduct an accurate evaluation of either phonocardiogram (PCG) and electrocardiogram (ECG) data. Artificial intelligence and machine learning-based computer-assisted diagnostics are becoming increasingly commonplace in modern medicine, assisting clinicians in making life-or-death decisions. The requirement for an enormous amount of information for training to establish the framework for a deep learning-based technique is an empirical challenge in the field of medicine. This increases the risk of personal information being misused. As a direct result of this issue, there has been an explosion in the study of methods for creating synthetic patient data. Researchers have attempted to generate synthetic ECG or PCG readings. To balance the dataset, ECG data were first created on the MIT-BIH arrhythmia database using LS GAN and Cycle GAN. Next, using VGGNet, studies were conducted to classify arrhythmias for the synthesized ECG signals. The synthesized signals performed well and resembled the original signal and the obtained precision of 91.20%, recall of 89.52% and an F1 score of 90.35%.
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