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引用次数: 0
摘要
对于公共卫生当局和政策制定者来说,减少疾病传播影响的疫苗接种战略至关重要。全面恢复正常的社会经济效益是此类战略的核心。本文建立并分析了具有有效率的 COVID-19 疫苗接种模型。该模型的流行病学参数是通过前馈神经网络学习的。为了可靠、准确地预测每日病例,本文采用了一种将残差神经网络与递归神经网络变体相结合的混合方法,并对其进行了分析。误差度量和随机分割的 k 倍交叉验证显示,一种称为残差神经网络与门控递归单元的特定类型混合方法是最佳的混合神经网络架构。数据驱动的模拟证实了这样一个事实,即效力更高的疫苗接种率可降低传染性和基本繁殖数量。研究案例使用了美国田纳西州的 COVID-19 数据。
Deep-Data-Driven Neural Networks for COVID-19 Vaccine Efficacy.
Vaccination strategies to lessen the impact of the spread of a disease are fundamental to public health authorities and policy makers. The socio-economic benefit of full return to normalcy is the core of such strategies. In this paper, a COVID-19 vaccination model with efficacy rate is developed and analyzed. The epidemiological parameters of the model are learned via a feed-forward neural network. A hybrid approach that combines residual neural network with variants of recurrent neural network is implemented and analyzed for reliable and accurate prediction of daily cases. The error metrics and a k-fold cross validation with random splitting reveal that a particular type of hybrid approach called residual neural network with gated recurrent unit is the best hybrid neural network architecture. The data-driven simulations confirm the fact that the vaccination rate with higher efficacy lowers the infectiousness and basic reproduction number. As a study case, COVID-19 data for the state of Tennessee in USA is used.
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