A framework of genetic algorithm-based CNN on multi-access edge computing for automated detection of COVID-19.

IF 2.5 3区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Md Rafiul Hassan, Walaa N Ismail, Ahmad Chowdhury, Sharara Hossain, Shamsul Huda, Mohammad Mehedi Hassan
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引用次数: 8

Abstract

This paper designs and develops a computational intelligence-based framework using convolutional neural network (CNN) and genetic algorithm (GA) to detect COVID-19 cases. The framework utilizes a multi-access edge computing technology such that end-user can access available resources as well the CNN on the cloud. Early detection of COVID-19 can improve treatment and mitigate transmission. During peaks of infection, hospitals worldwide have suffered from heavy patient loads, bed shortages, inadequate testing kits and short-staffing problems. Due to the time-consuming nature of the standard RT-PCR test, the lack of expert radiologists, and evaluation issues relating to poor quality images, patients with severe conditions are sometimes unable to receive timely treatment. It is thus recommended to incorporate computational intelligence methodologies, which provides highly accurate detection in a matter of minutes, alongside traditional testing as an emergency measure. CNN has achieved extraordinary performance in numerous computational intelligence tasks. However, finding a systematic, automatic and optimal set of hyperparameters for building an efficient CNN for complex tasks remains challenging. Moreover, due to advancement of technology, data are collected at sparse location and hence accumulation of data from such a diverse sparse location poses a challenge. In this article, we propose a framework of computational intelligence-based algorithm that utilize the recent 5G mobile technology of multi-access edge computing along with a new CNN-model for automatic COVID-19 detection using raw chest X-ray images. This algorithm suggests that anyone having a 5G device (e.g., 5G mobile phone) should be able to use the CNN-based automatic COVID-19 detection tool. As part of the proposed automated model, the model introduces a novel CNN structure with the genetic algorithm (GA) for hyperparameter tuning. One such combination of GA and CNN is new in the application of COVID-19 detection/classification. The experimental results show that the developed framework could classify COVID-19 X-ray images with 98.48% accuracy which is higher than any of the performances achieved by other studies.

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基于遗传算法的CNN多接入边缘计算框架新冠肺炎自动检测
本文设计并开发了一种基于卷积神经网络(CNN)和遗传算法(GA)的计算智能框架来检测COVID-19病例。该框架利用多访问边缘计算技术,使最终用户可以访问可用资源以及云上的CNN。早期发现COVID-19可以改善治疗并减轻传播。在感染高峰期间,世界各地的医院都面临着病人负荷过重、床位短缺、检测包不足和人员短缺的问题。由于标准RT-PCR检测耗时,缺乏放射科专家,以及与图像质量差有关的评估问题,病情严重的患者有时无法得到及时治疗。因此,建议结合计算智能方法,在几分钟内提供高度准确的检测,以及作为紧急措施的传统测试。CNN在众多计算智能任务中取得了非凡的表现。然而,找到一个系统的、自动的、最优的超参数集来为复杂的任务构建高效的CNN仍然是一个挑战。此外,由于技术的进步,数据的收集是在稀疏的位置,因此从这样一个多样化的稀疏位置积累数据是一个挑战。在本文中,我们提出了一个基于计算智能的算法框架,该算法利用最新的5G多接入边缘计算移动技术以及一个新的cnn模型,用于使用原始胸部x射线图像自动检测COVID-19。该算法表明,任何拥有5G设备(例如5G手机)的人都应该能够使用基于cnn的新冠病毒自动检测工具。作为所提出的自动化模型的一部分,该模型引入了一种新的CNN结构,该结构采用遗传算法(GA)进行超参数调谐。其中一种遗传算法和CNN的结合在COVID-19检测/分类应用中是新的。实验结果表明,所开发的框架对COVID-19 x射线图像的分类准确率为98.48%,高于其他研究的任何性能。
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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来源期刊
Journal of Supercomputing
Journal of Supercomputing 工程技术-工程:电子与电气
CiteScore
6.30
自引率
12.10%
发文量
734
审稿时长
13 months
期刊介绍: The Journal of Supercomputing publishes papers on the technology, architecture and systems, algorithms, languages and programs, performance measures and methods, and applications of all aspects of Supercomputing. Tutorial and survey papers are intended for workers and students in the fields associated with and employing advanced computer systems. The journal also publishes letters to the editor, especially in areas relating to policy, succinct statements of paradoxes, intuitively puzzling results, partial results and real needs. Published theoretical and practical papers are advanced, in-depth treatments describing new developments and new ideas. Each includes an introduction summarizing prior, directly pertinent work that is useful for the reader to understand, in order to appreciate the advances being described.
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