Transmission Analysis of Hepatitis B Epidemic Model using Standard and Non-standard Schemes

Scientific Inquiry and Review Pub Date : 2023-03-15 DOI:10.32350/sir.71.04

I. Khan, M. Irfan, Azhar Iqbal, Amjid Hussain

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Abstract

Mathematical modeling is a vast field that has interdisciplinary implications for research. These models help to investigate the basic dynamics and quantitative behavior of infectious diseases that affect human beings, such as COVID-19, hepatitis B virus (HBV), and human immunodeficiency virus (HIV). The current study investigates the spread of HBV by using the basic virus model. In order to determine the stability of disease-free and endemic equilibria, the basic reproduction number is determined. The convergence and divergence of disease-free and endemic equilibria are demonstrated by using standard finite difference (SFD) and non-standard finite difference (NSFD) schemes. Arguably, SFD schemes, namely Euler and Runge-Kutta order four (RK-4) schemes, converge for lower step sizes, while the NSFD scheme converges for all step sizes. The latter is a strong, efficient, and reliable method that shows a clear picture of the continuous model. All the results are validated using numerical simulations in order to better comprehend the dynamics of the disease. The theoretical and numerical findings in this work can be applied as a useful tool for tracking the prevalence of HBV infectious disease.

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采用标准方案和非标准方案的乙型肝炎流行模型传播分析

数学建模是一个广泛的领域，具有跨学科的研究意义。这些模型有助于研究影响人类的传染病的基本动态和定量行为，如COVID-19，乙型肝炎病毒(HBV)和人类免疫缺陷病毒(HIV)。本研究采用基本病毒模型研究HBV的传播。为了确定无病和地方性平衡的稳定性，确定了基本繁殖数。用标准有限差分(SFD)和非标准有限差分(NSFD)格式证明了无病平衡和地方性平衡的收敛性和发散性。可以说，SFD格式，即Euler和Runge-Kutta四阶(RK-4)格式，对较低步长收敛，而NSFD格式对所有步长收敛。后者是一种强大、高效、可靠的方法，可以清晰地显示连续模型的图像。所有的结果都用数值模拟来验证，以便更好地理解疾病的动力学。这项工作的理论和数值结果可以作为跟踪HBV传染病流行的有用工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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