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dc.contributor.authorLiu, Xian-Xian
dc.contributor.authorFong, Simon James
dc.contributor.authorDey, Nilanjan
dc.contributor.authorGonzález-Crespo, Rubén
dc.contributor.authorHerrera-Viedma, Enrique
dc.date2021
dc.date.accessioned2021-09-14T11:21:49Z
dc.date.available2021-09-14T11:21:49Z
dc.identifier.issn0924-669X
dc.identifier.urihttps://reunir.unir.net/handle/123456789/11843
dc.description.abstractMeasuring the spread of disease during a pandemic is critically important for accurately and promptly applying various lockdown strategies, so to prevent the collapse of the medical system. The latest pandemic of COVID-19 that hits the world death tolls and economy loss very hard, is more complex and contagious than its precedent diseases. The complexity comes mostly from the emergence of asymptomatic patients and relapse of the recovered patients which were not commonly seen during SARS outbreaks. These new characteristics pertaining to COVID-19 were only discovered lately, adding a level of uncertainty to the traditional SEIR models. The contribution of this paper is that for the COVID-19 epidemic, which is infectious in both the incubation period and the onset period, we use neural networks to learn from the actual data of the epidemic to obtain optimal parameters, thereby establishing a nonlinear, self-adaptive dynamic coefficient infectious disease prediction model. On the basis of prediction, we considered control measures and simulated the effects of different control measures and different strengths of the control measures. The epidemic control is predicted as a continuous change process, and the epidemic development and control are integrated to simulate and forecast. Decision-making departments make optimal choices. The improved model is applied to simulate the COVID-19 epidemic in the United States, and by comparing the prediction results with the traditional SEIR model, SEAIRD model and adaptive SEAIRD model, it is found that the adaptive SEAIRD model's prediction results of the U.S. COVID-19 epidemic data are in good agreement with the actual epidemic curve. For example, from the prediction effect of these 3 different models on accumulative confirmed cases, in terms of goodness of fit, adaptive SEAIRD model (0.99997) approximate to SEAIRD model (0.98548) > Classical SEIR model (0.66837); in terms of error value: adaptive SEAIRD model (198.6563) < < SEAIRD model(4739.8577) < < Classical SEIR model (22,652.796); The objective of this contribution is mainly on extending the current spread prediction model. It incorporates extra compartments accounting for the new features of COVID-19, and fine-tunes the new model with neural network, in a bid of achieving a higher level of prediction accuracy. Based on the SEIR model of disease transmission, an adaptive model called SEAIRD with internal source and isolation intervention is proposed. It simulates the effects of the changing behaviour of the SARS-CoV-2 in U.S. Neural network is applied to achieve a better fit in SEAIRD. Unlike the SEIR model, the adaptive SEAIRD model embraces multi-group dynamics which lead to different evolutionary trends during the epidemic. Through the risk assessment indicators of the adaptive SEAIRD model, it is convenient to measure the severity of the epidemic situation for consideration of different preventive measures. Future scenarios are projected from the trends of various indicators by running the adaptive SEAIRD model.es_ES
dc.language.isoenges_ES
dc.publisherApplied intelligencees_ES
dc.relation.ispartofseries;vol. 51, nº 7
dc.relation.urihttps://link.springer.com/article/10.1007%2Fs10489-020-01938-3es_ES
dc.rightsopenAccesses_ES
dc.subjectnovel coronaviruses_ES
dc.subjectCOVID-19es_ES
dc.subjectasymptomatic caseses_ES
dc.subjectdisease transmissiones_ES
dc.subjectSEIRes_ES
dc.subjectSEAIRDes_ES
dc.subjectseverityes_ES
dc.subjectrisk assessmentes_ES
dc.subjectenhanced surveillancees_ES
dc.subjectinterventionses_ES
dc.subjectWOS(2)es_ES
dc.subjectScopuses_ES
dc.titleA new SEAIRD pandemic prediction model with clinical and epidemiological data analysis on COVID-19 outbreakes_ES
dc.typearticlees_ES
reunir.tag~ARIes_ES
dc.identifier.doihttps://doi.org/10.1007/s10489-020-01938-3


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