Optimal treatment and stochastic stability on a fractional-order epidemic model incorporating media awareness

Snehasis Barman , Soovoojeet Jana , Suvankar Majee , Tapan Kumar Kar
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Abstract

Infectious diseases have become a severe concern in our society in recent times. In this respect, conducting a qualitative investigation of infectious disease systems is very crucial. Nowadays, developing a mathematical model and its analysis for disease control has been very popular. Our present study has formulated a SIR-type epidemic model by considering a saturated incidence function with media impact. To account for the influence of memory, we have modified the model by employing a system of fractional-order differential equations of Caputo’s notion. We have determined all the system equilibrium points and discussed their stability criteria based on the basic reproduction number (R0) as the threshold parameter. It is observed that for the threshold R0<1, disease-free equilibrium becomes both locally and globally asymptotically stable. A transcritical bifurcation occurs at the threshold R0=1. Further, as the threshold R0 exceeds unity, the endemic equilibrium becomes asymptotically stable. A fractional-order optimal control problem with treatment as the control parameter is developed to reduce the impact of disease. Using Pontryagin’s Maximum Principle yields a theoretical and numerical solution to the fractional order optimal control problem. It is observed that both the media and memory effect dramatically reduces infection rates. Considering environmental variations, the stochastic stability of the endemic equilibrium point has also been studied. Sensitivity analysis is carried out to comprehend how the parameters impact the threshold value (R0). Finally, extensive numerical simulations are performed to demonstrate our theoretical examination.

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包含媒体意识的分数阶流行病模型的优化处理和随机稳定性
近来,传染病已成为社会严重关切的问题。因此,对传染病系统进行定性研究非常重要。如今,建立数学模型并对其进行分析以进行疾病控制已非常流行。本研究通过考虑具有媒体影响的饱和发病率函数,建立了一个 SIR 型流行病模型。为了考虑记忆的影响,我们对模型进行了修改,采用了卡普托概念的分数阶微分方程系统。我们确定了所有的系统平衡点,并根据作为阈值参数的基本繁殖数(R0)讨论了它们的稳定性标准。结果表明,在临界值 R0<1 时,无病平衡在局部和全局上都是渐近稳定的。在阈值 R0=1 时,会出现跨临界分岔。此外,当临界值 R0 超过 1 时,地方病均衡变得渐近稳定。为了减少疾病的影响,我们提出了一个以治疗为控制参数的分数阶最优控制问题。利用庞特里亚金最大值原理,得到了分数阶最优控制问题的理论和数值解。据观察,介质效应和记忆效应都能显著降低感染率。考虑到环境变化,还研究了流行平衡点的随机稳定性。还进行了敏感性分析,以了解参数如何影响阈值 (R0)。最后,还进行了大量的数值模拟,以证明我们的理论研究。
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来源期刊
Results in Control and Optimization
Results in Control and Optimization Mathematics-Control and Optimization
CiteScore
3.00
自引率
0.00%
发文量
51
审稿时长
91 days
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