A new feature extraction approach of medical image based on data distribution skew

Farag Hamed Kuwil
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引用次数: 2

Abstract

Building a highly efficient machine learning model requires sufficient data to allow robust feature extraction capable of recognizing patterns in each class; thus, the model can distinguish among different classes. It is important to extract effective features from the available amount of data without the need for more real data or improve them using an augmentation technique. The matter gets more complicated if the data is of the image type. In this paper, a new approach for feature extraction called Feature Extraction Based on Region of Mines (FE_mines) is presented that includes three versions to deal with different medical images; this approach obtains multiple formulas for each image using the signal and image processing, then data distribution skew is used to calculate three statistical measurements that include the hidden features, which leads to increased discrimination among classes to build powerful models with better performance and high efficiency. Three experiments were conducted using three types of medical image datasets, namely: Diabetic Retinopathy (Color Fundus photography); Brain Tumor (MRI); and COVID-19 chest (X-ray). The results proved that the FE_mines approach achieved higher accuracy ranges (1 to 13)% within the three experiments than the two traditional methods (RGB and ASPS approaches). In addition, an augmentation technique to increase the size of the dataset is not required which has negative effects on performance. Furthermore, the approach simultaneously included three preprocessing techniques: feature selection, reduction, and extraction.

一种基于数据分布偏斜的医学图像特征提取新方法
建立一个高效的机器学习模型需要足够的数据来进行鲁棒的特征提取,能够识别每个类中的模式;因此,该模型可以区分不同的类别。在不需要更多真实数据或使用增强技术改进数据的情况下,从可用的数据量中提取有效的特征是很重要的。如果数据是图像类型,问题会变得更加复杂。本文提出了一种新的特征提取方法——基于区域的特征提取(FE_mines),该方法包括三个版本来处理不同的医学图像;该方法利用信号和图像处理得到每张图像的多个公式,然后利用数据分布偏度计算包含隐藏特征的三个统计度量,增加了类之间的区分,从而构建性能更好、效率更高的强大模型。使用三种类型的医学图像数据集进行了三个实验,分别是:糖尿病视网膜病变(彩色眼底摄影);脑肿瘤(MRI);以及COVID-19胸部(x光片)。结果表明,在3次实验中,FE_mines方法的精度范围(1 ~ 13)%高于RGB和asp两种传统方法。此外,不需要增加数据集大小的增强技术,这对性能有负面影响。此外,该方法同时包含三种预处理技术:特征选择、约简和提取。
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来源期刊
Neuroscience informatics
Neuroscience informatics Surgery, Radiology and Imaging, Information Systems, Neurology, Artificial Intelligence, Computer Science Applications, Signal Processing, Critical Care and Intensive Care Medicine, Health Informatics, Clinical Neurology, Pathology and Medical Technology
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