基于游程编码的小波特征用于X射线中COVID-19的检测。

Run length encoding based wavelet features for COVID-19 detection in X-rays.

作者信息

Sarhan Ahmad

机构信息

Department of Computer Engineering, Amman Arab University, Amman, Jordan.

出版信息

BJR Open. 2021 Feb 2;3(1):20200028. doi: 10.1259/bjro.20200028. eCollection 2021.

DOI:10.1259/bjro.20200028

PMID:33718765

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7931407/

Abstract

OBJECTIVES

Introduced in his paper is a novel approach for the recognition of COVID-19 cases in chest X-rays.

METHODS

The discrete Wavelet transform (DWT) is employed in the proposed system to obtain highly discriminative features from the input chest X-ray image. The selected features are then classified by a support vector machine (SVM) classifier as either normal or COVID-19 cases. The DWT is well-known for its energy compression power. The proposed system uses the DWT to decompose the chest X-ray image into a group of approximation coefficients that contain a small number of high-energy (high-magnitude) coefficients. The proposed system introduces a novel coefficient selection scheme that employs hard thresholding combined with run-length encoding to extract only high-magnitude Wavelet approximation coefficients. These coefficients are utilized as features symbolizing the chest X-ray input image. After applying zero-padding to unify their lengths, the feature vectors are introduced to a SVM which classifies them as either normal or COVID-19 cases.

RESULTS

The proposed system yields promising results in terms of classification accuracy, which justifies further work in this direction.

CONCLUSION

The DWT can produce a few features that are highly discriminative. By reducing the dimensionality of the feature space, the proposed system is able to reduce the number of required training images and diminish the space and time complexities of the system.

ADVANCES IN KNOWLEDGE

Exploiting and reshaping the approximation coefficients can produce discriminative features representing the input image.

摘要

目的

本文介绍了一种用于胸部X光片中新冠肺炎病例识别的新方法。

方法

在所提出的系统中采用离散小波变换（DWT），从输入的胸部X光图像中获取具有高度判别力的特征。然后，由支持向量机（SVM）分类器将所选特征分类为正常病例或新冠肺炎病例。DWT以其能量压缩能力而闻名。所提出的系统使用DWT将胸部X光图像分解为一组近似系数，其中包含少量高能量（高幅值）系数。所提出的系统引入了一种新颖的系数选择方案，该方案采用硬阈值处理并结合游程编码，仅提取高幅值小波近似系数。这些系数被用作表征胸部X光输入图像的特征。在应用零填充以统一其长度后，将特征向量引入SVM，SVM将它们分类为正常病例或新冠肺炎病例。

结果

所提出的系统在分类准确率方面取得了有前景的结果，这证明了在这个方向上进一步开展工作的合理性。

结论

DWT能够产生一些具有高度判别力的特征。通过降低特征空间的维度，所提出的系统能够减少所需训练图像的数量，并降低系统的空间和时间复杂度。

知识进展

利用和重塑近似系数可以产生表征输入图像的判别特征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff3/7931407/98eceafa705c/bjro.20200028.g001.jpg

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基于游程编码的小波特征用于X射线中COVID-19的检测。

Run length encoding based wavelet features for COVID-19 detection in X-rays.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSION

ADVANCES IN KNOWLEDGE

目的

方法

结果

结论

知识进展

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