A Study on the Prediction of COVID-19 Confirmed Cases Using Deep Learning and AdaBoost-Bi-LSTM model

IF 0.9 Q3 ENGINEERING, MULTIDISCIPLINARY International Journal of Reliability Quality and Safety Engineering Pub Date : 2023-11-01 DOI:10.1142/s0218539323500316
Dong-Ryeol Shin, Gayoung Chae, Minjae Park
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Abstract

In this study, AdaBoost-Bi-LSTM ensemble models are developed to predict the number of COVID-19 confirmed cases by effectively learning volatile and unstable data using a nonparametric method. The performance of the developed models in terms of prediction accuracy is compared with those of existing deep learning models such as GRU, LSTM, and Bi-LSTM. The COVID-19 outbreak in 2019 has resulted in a global pandemic with a significant number of deaths worldwide. There have long been ongoing efforts to prevent the spread of infectious diseases, and a number of prediction models have been developed for the number of confirmed cases. However, there are many variables that continuously mutate the virus and therefore affect the number of confirmed cases, which makes it difficult to accurately predict the number of COVID-19 confirmed cases. The goal of this study is to develop a model with a lower error rate and higher predictive accuracy than existing models to more effectively monitor and handle endemic diseases. To this end, this study predicts COVID-19 confirmed cases from April to October 2022 based on the analysis of COVID-19 confirmed cases data from 16 December 2020 to 27 September 2022 using the developed models. As a result, the AdaBoost-Bi-LSTM model shows the best performance, even though the data from the period of high variability in the number of confirmed cases was used for model training. The AdaBoost-Bi-LSTM model achieved improved predictive power and shows an increased performance of 17.41% over the simple GRU/LSTM model and of 15.62% over the Bi-LSTM model.
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基于深度学习和AdaBoost-Bi-LSTM模型的新冠肺炎确诊病例预测研究
在这项研究中,我们开发了AdaBoost-Bi-LSTM集成模型,通过使用非参数方法有效学习挥发性和不稳定数据来预测COVID-19确诊病例的数量。将所建立的模型在预测精度方面的性能与现有的深度学习模型如GRU、LSTM和Bi-LSTM进行了比较。2019年的COVID-19疫情已导致全球大流行,在世界范围内造成大量死亡。长期以来,一直在努力防止传染病的传播,并为确诊病例的数量开发了一些预测模型。然而,由于病毒不断发生变异,从而影响确诊病例数的变量很多,因此很难准确预测新冠肺炎确诊病例数。本研究的目标是开发一种比现有模型具有更低错误率和更高预测精度的模型,以更有效地监测和处理地方病。为此,本研究基于对2020年12月16日至2022年9月27日新冠肺炎确诊病例数据的分析,利用开发的模型对2022年4月至10月的新冠肺炎确诊病例进行预测。因此,AdaBoost-Bi-LSTM模型表现出最好的性能,即使来自确诊病例数量高变异性时期的数据被用于模型训练。AdaBoost-Bi-LSTM模型提高了预测能力,比简单的GRU/LSTM模型提高了17.41%,比Bi-LSTM模型提高了15.62%。
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来源期刊
CiteScore
1.70
自引率
25.00%
发文量
26
期刊介绍: IJRQSE is a refereed journal focusing on both the theoretical and practical aspects of reliability, quality, and safety in engineering. The journal is intended to cover a broad spectrum of issues in manufacturing, computing, software, aerospace, control, nuclear systems, power systems, communication systems, and electronics. Papers are sought in the theoretical domain as well as in such practical fields as industry and laboratory research. The journal is published quarterly, March, June, September and December. It is intended to bridge the gap between the theoretical experts and practitioners in the academic, scientific, government, and business communities.
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Introducing the detailed semantic interface description to support a modular safety approval of automated vehicles – S 2 I 2 A SaaS Concept Based Shopping Center Fire Risk Assessment Model for the Safety Management Applications OSS Sustainability Assessment Based on the Deep Learning Considering Effort Wiener Process Data A Study on the Prediction of COVID-19 Confirmed Cases Using Deep Learning and AdaBoost-Bi-LSTM model Assessment of emergency risk management and resilience engineering at management levels of a high hazard industry
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