An SIQ delay differential equations model for disease control via isolation

Ruschel Stefan; Pereira Tiago; Yanchuk Serhiy; Young Lai-Sang

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An SIQ delay differential equations model for disease control via isolation

机译：通过隔离疾病控制的SIQ延迟微分方程模型

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Infectious diseases are among the most prominent threats to mankind. When preventive health care cannot be provided, a viable means of disease control is the isolation of individuals who may be infected. To study the impact of isolation, we propose a system of delay differential equations and offer our model analysis based on the geometric theory of semi-flows. Calibrating the response to an outbreak in terms of the fraction of infectious individuals isolated and the speed with which this is done, we deduce the minimum response required to curb an incipient outbreak, and predict the ensuing endemic state should the infection continue to spread.

机译：传染病是人类最突出的威胁之一。当无法提供预防保健时，可行的疾病控制手段是孤立可能被感染的个体。为了研究隔离的影响，我们提出了一种延迟微分方程系统，并根据半流的几何理论提供我们的模型分析。校准对分离的传染性人数的爆发的爆发和这项工作的速度，我们推导出抑制初期爆发所需的最低响应，并预测感染不断传播的情况。

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来源
《Journal of Mathematical Biology》 |2019年第1期|共31页
作者
Ruschel Stefan; Pereira Tiago; Yanchuk Serhiy; Young Lai-Sang;
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作者单位

Tech Univ Berlin Inst Math Str 17 Juni 136 D-10623 Berlin Germany;

Univ Sao Paulo Inst Ciencias Matemat &

Comp Ave Trabalhador Sao Carlense 400 Ctr BR-13566590 Sao Carlos SP Brazil;

Tech Univ Berlin Inst Math Str 17 Juni 136 D-10623 Berlin Germany;

NYU Courant Inst Math Sci 251 Mercer St New York NY 10012 USA;

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原文格式 PDF
正文语种 eng
中图分类 O29:Q;
关键词
Epidemic spreading; Disease control via isolation; Delay differential equations; Invariant manifolds;

机译：疫情蔓延;通过隔离疾病控制;延迟微分方程;不变的歧管;

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专利

1. An SIQ delay differential equations model for disease control via isolation [J] . Ruschel Stefan, Pereira Tiago, Yanchuk Serhiy, Journal of Mathematical Biology . 2019,第1期

机译：通过隔离疾病控制的SIQ延迟微分方程模型
2. Relative controllability of fractional delay differential equations via delayed perturbation of Mittag-Leffler functions [J] . Journal of Computational and Applied Mathematics . 2020,第期

机译：Mittag-Leffler函数延迟扰动分数延迟微分方程的相对可控性
3. DELAY DIFFERENTIAL EQUATIONS UNDER NONLINEAR IMPULSIVE CONTROL AND APPLICATIONS TO NEURAL NETWORK MODELS [J] . Yong ZHAO, Qishao LU, Zhaosheng FENG, 系统科学与复杂性：英文版 . 2012,第004期

机译：非线性脉冲控制下的时滞微分方程及其在神经网络模型中的应用
4. Delay Differential Equation Models of Normal and Diseased Electrocardiograms [C] . Claudia Lainscsek, Terrence J. Sejnowski ICAND 2012 . 2014

机译：正常与患病心电图的延迟微分方程模型
5. A biologically-based controlled growth and differentiation model using delay differential equations: Development, applications and stability analysis. [D] . Whitaker, Shree Yvonne. 2000

机译：使用延迟微分方程的基于生物学的受控生长和分化模型：开发，应用和稳定性分析。
6. Andronov–Hopf and Neimark–Sacker bifurcations in time-delay differential equations and difference equations with applications to models for diseases and animal populations [O] . Rachadawan Darlai, Elvin J. Moore, Sanoe Koonprasert -1

机译：时滞微分方程和差分方程中的Andronov-Hopf和Neimark-Sacker分叉及其在疾病和动物种群模型中的应用
7. An SIQ delay differential equations model for disease control via isolation [O] . Stefan Ruschel, Tiago Pereira, Serhiy Yanchuk, 2019

机译：通过隔离控制疾病控制的SIQ延迟微分方程模型

An SIQ delay differential equations model for disease control via isolation

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