传染病传播的广义马尔可夫模型:制定动态卫生政策的新框架。
Generalized Markov Models of Infectious Disease Spread: A Novel Framework for Developing Dynamic Health Policies.
作者信息
Yaesoubi Reza, Cohen Ted
机构信息
Harvard School of Public Health - Department of Epidemiology, 677 Huntington Ave., Boston, MA 02115, U.S.A.
出版信息
Eur J Oper Res. 2011 Dec 16;215(3):679-687. doi: 10.1016/j.ejor.2011.07.016.
Abstract
We propose a class of mathematical models for the transmission of infectious diseases in large populations. This class of models, which generalizes the existing discrete-time Markov chain models of infectious diseases, is compatible with efficient dynamic optimization techniques to assist real-time selection and modification of public health interventions in response to evolving epidemiological situations and changing availability of information and medical resources. While retaining the strength of existing classes of mathematical models in their ability to represent the within-host natural history of disease and between-host transmission dynamics, the proposed models possess two advantages over previous models: (1) these models can be used to generate optimal dynamic health policies for controlling spreads of infectious diseases, and (2) these models are able to approximate the spread of the disease in relatively large populations with a limited state space size and computation time.
摘要
我们提出了一类用于大规模人群中传染病传播的数学模型。这类模型推广了现有的传染病离散时间马尔可夫链模型,它与高效的动态优化技术兼容,以协助根据不断变化的流行病学情况以及信息和医疗资源的可用性实时选择和调整公共卫生干预措施。在保留现有数学模型类别在表示宿主内疾病自然史和宿主间传播动态方面的优势的同时,所提出的模型相对于先前的模型具有两个优点:(1)这些模型可用于生成控制传染病传播的最优动态健康策略,(2)这些模型能够在有限的状态空间大小和计算时间内近似相对大规模人群中的疾病传播。
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