Pneumonia Detection Using Convolutional Neural Networks

International Journal of Scientific & Technology Research Pub Date : 2020-04-25 DOI:10.46501/ijmtst070117

Sammy V. Militante, Brandon G. Sibbaluca

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引用次数: 31

Abstract

Pneumonia is an infectious and deadly illness in respiratory that is caused by bacteria, fungi, or a virus that infects the human lung air sacs with the load full of fluid or pus. Chest X-rays are the common method used to diagnose pneumonia and it needs a medical expert to evaluate the result of X-ray. The troublesome method of detecting the pneumonia cause a life loss due to improper diagnosis and treatment. With the emerging computer technology, development on an automatic system to detect pneumonia and treating the disease is now possible especially if the patient is in a distant area and medical services is limited. This study intends to incorporate deep learning methods to alleviate the problem. Convolutional Neural Network is optimized to perform the complicated task of detecting diseases like pneumonia to assist medical experts in diagnosis and possible treatment of the disease. The authors developed several models to determine the best possible model in detecting pneumonia with the most accurate results. This study has trained five different models of CNN, namely AlexNet, LeNet, GoogleNet, ResNet and VGGNet using 1024 by 1024 resolution of 26,684 dataset images. The result achieved a 97 percent accuracy rate for VGGNet and the lowest rate is 74 percent achieved by the ResNet model. The result of statistics shows that the trained model was able to detect Pneumonia through examined images of chest X-ray.

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使用卷积神经网络检测肺炎

肺炎是一种传染性和致命的呼吸道疾病，由细菌，真菌或病毒引起，感染人体肺部充满液体或脓液的气囊。胸部x光片是诊断肺炎的常用方法，需要医学专家对x光片的结果进行评估。由于诊断和治疗不当，检测肺炎的麻烦方法会造成生命损失。随着新兴的计算机技术的发展，自动检测肺炎和治疗疾病的系统的开发现在是可能的，特别是如果病人在一个遥远的地区和医疗服务有限。本研究拟采用深度学习方法来缓解这一问题。卷积神经网络经过优化，可以执行检测肺炎等疾病的复杂任务，以协助医学专家诊断和治疗疾病。作者开发了几个模型，以确定检测肺炎的最佳模型和最准确的结果。本研究使用1024 × 1024分辨率的26,684张数据集图像，训练了五种不同的CNN模型AlexNet、LeNet、GoogleNet、ResNet和VGGNet。VGGNet模型的准确率达到97%，ResNet模型的准确率最低为74%。统计结果表明，训练后的模型能够通过检查胸部x线图像来检测肺炎。

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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International Journal of Scientific & Technology Research

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