SNELM: SqueezeNet-Guided ELM for COVID-19 Recognition.

IF 2.2 4区计算机科学 Q2 Computer Science Computer Systems Science and Engineering Pub Date : 2023-01-20 DOI:10.32604/csse.2023.034172

Yudong Zhang, Muhammad Attique Khan, Ziquan Zhu, Shuihua Wang

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引用次数: 16

Abstract

(Aim) The COVID-19 has caused 6.26 million deaths and 522.06 million confirmed cases till 17/May/2022. Chest computed tomography is a precise way to help clinicians diagnose COVID-19 patients. (Method) Two datasets are chosen for this study. The multiple-way data augmentation, including speckle noise, random translation, scaling, salt-and-pepper noise, vertical shear, Gamma correction, rotation, Gaussian noise, and horizontal shear, is harnessed to increase the size of the training set. Then, the SqueezeNet (SN) with complex bypass is used to generate SN features. Finally, the extreme learning machine (ELM) is used to serve as the classifier due to its simplicity of usage, quick learning speed, and great generalization performances. The number of hidden neurons in ELM is set to 2000. Ten runs of 10-fold cross-validation are implemented to generate impartial results. (Result) For the 296-image dataset, our SNELM model attains a sensitivity of 96.35 ± 1.50%, a specificity of 96.08 ± 1.05%, a precision of 96.10 ± 1.00%, and an accuracy of 96.22 ± 0.94%. For the 640-image dataset, the SNELM attains a sensitivity of 96.00 ± 1.25%, a specificity of 96.28 ± 1.16%, a precision of 96.28 ± 1.13%, and an accuracy of 96.14 ± 0.96%. (Conclusion) The proposed SNELM model is successful in diagnosing COVID-19. The performances of our model are higher than seven state-of-the-art COVID-19 recognition models.

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SNELM:用于COVID-19识别的挤压引导ELM。

截至2022年5月17日，新冠肺炎已造成626万人死亡，52206万确诊病例。胸部计算机断层扫描是帮助临床医生诊断COVID-19患者的精确方法。(方法)本研究选择了两个数据集。利用散斑噪声、随机平移、缩放、椒盐噪声、垂直剪切、伽玛校正、旋转、高斯噪声和水平剪切等多路数据增强来增加训练集的大小。然后，使用复杂旁路的SqueezeNet (SN)生成SN特征。最后，使用极限学习机(ELM)作为分类器，因为它使用简单，学习速度快，泛化性能好。ELM中隐藏神经元的数量设置为2000个。为了产生公正的结果，进行了10次10倍交叉验证。(结果)对于296张图像数据集，SNELM模型的灵敏度为96.35±1.50%，特异性为96.08±1.05%，精密度为96.10±1.00%，准确度为96.22±0.94%。对于640张图像数据集，SNELM的灵敏度为96.00±1.25%，特异性为96.28±1.16%，精密度为96.28±1.13%，准确度为96.14±0.96%。(结论)所建立的SNELM模型对COVID-19的诊断是成功的。该模型的性能高于7个最先进的COVID-19识别模型。

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来源期刊

Computer Systems Science and Engineering 工程技术-计算机：理论方法

CiteScore

3.10

自引率

13.60%

发文量

308

审稿时长

>12 weeks

期刊介绍： The journal is devoted to the publication of high quality papers on theoretical developments in computer systems science, and their applications in computer systems engineering. Original research papers, state-of-the-art reviews and technical notes are invited for publication. All papers will be refereed by acknowledged experts in the field, and may be (i) accepted without change, (ii) require amendment and subsequent re-refereeing, or (iii) be rejected on the grounds of either relevance or content. The submission of a paper implies that, if accepted for publication, it will not be published elsewhere in the same form, in any language, without the prior consent of the Publisher.

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