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Time-varying and state-dependent recovery rates in epidemiological models 被引量:1
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作者 Scott Greenhalgh Troy Day 《Infectious Disease Modelling》 2017年第4期419-430,共12页
Differential equation models of infectious disease have undergone many theoretical extensions that are invaluable for the evaluation of disease spread.For instance,while one traditionally uses a bilinear term to descr... Differential equation models of infectious disease have undergone many theoretical extensions that are invaluable for the evaluation of disease spread.For instance,while one traditionally uses a bilinear term to describe the incidence rate of infection,physically more realistic generalizations exist to account for effects such as the saturation of infection.However,such theoretical extensions of recovery rates in differential equation models have only started to be developed.This is despite the fact that a constant rate often does not provide a good description of the dynamics of recovery and that the recovery rate is arguably as important as the incidence rate in governing the dynamics of a system.We provide a first-principles derivation of state-dependent and time-varying recovery rates in differential equation models of infectious disease.Through this derivation,we demonstrate how to obtain time-varying and state-dependent recovery rates based on the family of Pearson distributions and a power-law distribution,respectively.For recovery rates based on the family of Pearson distributions,we show that uncertainty in skewness,in comparison to other statistical moments,is at least two times more impactful on the sensitivity of predicting an epidemic's peak.In addition,using recovery rates based on a power-law distribution,we provide a procedure to obtain state-dependent recovery rates.For such state-dependent rates,we derive a natural connection between recovery rate parameters with the mean and standard deviation of a power-law distribution,illustrating the impact that standard deviation has on the shape of an epidemic wave. 展开更多
关键词 Differential equations Integral equations Infectious disease modeling waiting time distribution Duration of infectiousness SIR epidemic model
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