A Non-autonomous SIR Epidemic Model of Prey-predator with Vaccination and Time Delay 被引量：3

A Non-autonomous SIR Epidemic Model of Prey-predator with Vaccination and Time Delay

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摘要 A non-autonomous SIR epidemic model of prey-predator with vaccination and time delay is investigated in this paper. And an infectious disease is only considered to spread among the prey population. By using comparison principle and Lyapunov functional methods, we obtain the sufficient criteria for the permanence, extinction of infectious disease and the global attractively of the model. Furthermore, some numerical simulations illustrate that the vaccination has a better effect for disease controlling of infective prey. A non-autonomous SIR epidemic model of prey-predator with vaccination and time delay is investigated in this paper. And an infectious disease is only considered to spread among the prey population. By using comparison principle and Lyapunov functional methods, we obtain the sufficient criteria for the permanence, extinction of infectious disease and the global attractively of the model. Furthermore, some numerical simulations illustrate that the vaccination has a better effect for disease controlling of infective prey.

作者康瑞妮张太雷刘俊利

机构地区 School of Science School of Science

出处《Chinese Quarterly Journal of Mathematics》 2015年第3期450-461,共12页 数学季刊（英文版）

基金 Supported by the National Natural Science Foundation of China（11101323） Supported by the Fundamental Research Funds for the Central Universities（310812152002） Supported by the Project Supported by Natural Science Basic Research Plan in Shaanxi Province（2014JQ1018, 2014JQ1038）

关键词 VACCINATION time DELAY PERMANENCE EXTINCTION vaccination time delay permanence extinction

分类号 O175 [理学—基础数学]

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Chinese Quarterly Journal of Mathematics

2015年第3期

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