Dynamics of a stochastic COVID-19 epidemic model with jump-diffusion.

IF 4.1 3区 数学 Q1 Mathematics
Advances in Difference Equations Pub Date : 2021-01-01 Epub Date: 2021-05-01 DOI:10.1186/s13662-021-03396-8
Almaz Tesfay, Tareq Saeed, Anwar Zeb, Daniel Tesfay, Anas Khalaf, James Brannan
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引用次数: 1

Abstract

For a stochastic COVID-19 model with jump-diffusion, we prove the existence and uniqueness of the global positive solution. We also investigate some conditions for the extinction and persistence of the disease. We calculate the threshold of the stochastic epidemic system which determines the extinction or permanence of the disease at different intensities of the stochastic noises. This threshold is denoted by ξ which depends on white and jump noises. The effects of these noises on the dynamics of the model are studied. The numerical experiments show that the random perturbation introduced in the stochastic model suppresses disease outbreak as compared to its deterministic counterpart. In other words, the impact of the noises on the extinction and persistence is high. When the noise is large or small, our numerical findings show that COVID-19 vanishes from the population if ξ < 1 ; whereas the epidemic cannot go out of control if ξ > 1 . From this, we observe that white noise and jump noise have a significant effect on the spread of COVID-19 infection, i.e., we can conclude that the stochastic model is more realistic than the deterministic one. Finally, to illustrate this phenomenon, we put some numerical simulations.

Abstract Image

Abstract Image

Abstract Image

具有跳跃扩散的随机COVID-19流行模型动力学。
对于具有跳跃扩散的随机COVID-19模型,证明了其全局正解的存在唯一性。我们还研究了该病灭绝和持续存在的一些条件。我们计算了随机流行病系统的阈值,该阈值决定了在不同强度的随机噪声下疾病的消失或持续。该阈值由ξ表示,它取决于白噪声和跳变噪声。研究了这些噪声对模型动力学特性的影响。数值实验表明,与确定性模型相比,随机模型中引入的随机扰动抑制了疾病的爆发。换句话说,噪声对物种灭绝和持久性的影响很大。当噪声较大或较小时,我们的数值结果表明,当ξ 1时,COVID-19从种群中消失;而当ξ > 1时,疫情不会失控。由此可见,白噪声和跳跃噪声对COVID-19感染的传播有显著影响,即随机模型比确定性模型更现实。最后,为了说明这一现象,我们进行了一些数值模拟。
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来源期刊
自引率
0.00%
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0
审稿时长
4-8 weeks
期刊介绍: The theory of difference equations, the methods used, and their wide applications have advanced beyond their adolescent stage to occupy a central position in applicable analysis. In fact, in the last 15 years, the proliferation of the subject has been witnessed by hundreds of research articles, several monographs, many international conferences, and numerous special sessions. The theory of differential and difference equations forms two extreme representations of real world problems. For example, a simple population model when represented as a differential equation shows the good behavior of solutions whereas the corresponding discrete analogue shows the chaotic behavior. The actual behavior of the population is somewhere in between. The aim of Advances in Difference Equations is to report mainly the new developments in the field of difference equations, and their applications in all fields. We will also consider research articles emphasizing the qualitative behavior of solutions of ordinary, partial, delay, fractional, abstract, stochastic, fuzzy, and set-valued differential equations. Advances in Difference Equations will accept high-quality articles containing original research results and survey articles of exceptional merit.
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