Classification of SARS Cov-2 and Non-SARS Cov-2 Pneumonia Using CNN

Journal of Prevention, Diagnosis and Management of Human Diseases Pub Date : 2023-11-23 DOI:10.55529/jpdmhd.36.32.40

Dr. Sarangam Kodati, Dr. M. Dhasaratham, Veldandi Srikanth, K. M. Reddy

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Abstract

Both patients and medical professionals will benefit from precise identification of the Covid responsible for the COVID-19 outbreak this year, which is the extreme intense respiratory condition CoV-2 (SARS CoV-2). In countries where diagnostic tools are not easily accessible, knowledge of the disease's impact on the lungs is of utmost importance. The goal of this research was to demonstrate that high-resolution chest X-ray images could be used in conjunction with extensive training data to reliably differentiate COVID-19. The evaluation included the training of deep learning and AI classifiers using publicly available X-beam images (1092 sound, 1345 pneumonia, and 3616 affirmed Covid). There were 38 tests driven using Convolutional Brain Organizations, 10 examinations utilizing 5 simulated intelligence models, and 14 tests utilizing top tier pre-arranged models for move learning. In the first stages, the presentation of the models was surveyed using an eightfold cross-approval system that disentangled visuals and data analysis. Area under the curve for collector performance is a typical 96.51%, with 93.84% responsiveness, 98.18% particularity, 98.50% accuracy, and 93.84% responsiveness. COVID-19 may be detected in a small number of skewed chest X-beam pictures using a convolutional frontal cortex network with not many layers and no pre -taking care of.

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使用 CNN 对 SARS Cov-2 和非 SARS Cov-2 肺炎进行分类

准确识别导致今年 COVID-19 爆发的 Covid，即极度强烈的呼吸道疾病 CoV-2（SARS CoV-2），将使患者和医疗专业人员受益匪浅。在诊断工具不易获得的国家，了解这种疾病对肺部的影响至关重要。这项研究的目标是证明高分辨率胸部 X 光图像可与大量训练数据结合使用，从而可靠地区分 COVID-19。评估包括使用公开的 X 光图像（1092 张声波图像、1345 张肺炎图像和 3616 张确诊的 COVID 图像）训练深度学习和人工智能分类器。使用卷积脑组织进行了 38 次测试，利用 5 个模拟智能模型进行了 10 次测试，利用顶级预安排模型进行了 14 次移动学习测试。在第一阶段，使用八重交叉审批系统对模型的演示进行了调查，该系统将视觉效果和数据分析分离开来。收集器性能的曲线下面积为典型的 96.51%，响应性为 93.84%，特殊性为 98.18%，准确性为 98.50%，响应性为 93.84%。利用层数不多、无预处理的卷积额叶皮层网络，可以在少量倾斜的胸部 X 光照片中检测到 COVID-19。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Prevention, Diagnosis and Management of Human Diseases

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