The Global Analysis of a Stochastic Two-Scale Network Epidemic Dynamic Model with Varying Immunity Period 被引量：1

The Global Analysis of a Stochastic Two-Scale Network Epidemic Dynamic Model with Varying Immunity Period

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摘要 A stochastic SIR epidemic dynamic model with distributed-time-delay, for a two-scale dynamic population is derived. The distributed time delay is the varying naturally acquired immunity period of the removal class of individuals who have recovered from the infection, and have acquired natural immunity to the disease. We investigate the stochastic asymptotic stability of the disease free equilibrium of the epidemic dynamic model, and verify the impact on the eradication of the disease. A stochastic SIR epidemic dynamic model with distributed-time-delay, for a two-scale dynamic population is derived. The distributed time delay is the varying naturally acquired immunity period of the removal class of individuals who have recovered from the infection, and have acquired natural immunity to the disease. We investigate the stochastic asymptotic stability of the disease free equilibrium of the epidemic dynamic model, and verify the impact on the eradication of the disease.

作者 Divine Wanduku G. S. Ladde

机构地区 Department of Mathematical Sciences Department of Mathematics and Statistics

出处《Journal of Applied Mathematics and Physics》 2017年第5期1150-1173,共24页 应用数学与应用物理（英文）

关键词 Disease-Free STEADY State STOCHASTIC ASYMPTOTIC Stability Threshold Value Positively Self Invariant Set LYAPUNOV Functional Technique Disease-Free Steady State Stochastic Asymptotic Stability Threshold Value Positively Self Invariant Set Lyapunov Functional Technique

分类号 O1 [理学—基础数学]

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Journal of Applied Mathematics and Physics

2017年第5期

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The Global Analysis of a Stochastic Two-Scale Network Epidemic Dynamic Model with Varying Immunity Period 被引量：1

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