M. A. Mohammed, Mahdi A. Sabea, Noor Fadiya Mohd Noor
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引用次数: 0
摘要
我们的研究目的是通过初值问题在当前研究中的应用来求解一个非线性流行病模型,即伊拉克的COVID-19流行病模型。该模型被描述为一个常微分方程系统,其参数随时间变化。提出了求解该模型的两种数值模拟方法,作为求解系数随时间变化的系统的合适方法。这些方法分别是Mean Monte Carlo Runge-Kutta方法(MMC_RK)和Mean Latin Hypercube Runge-Kutta方法(MLH_RK)。将数值模拟方法的结果与2021 ~ 2025年的数值龙格-库塔四阶方法(RK4)的结果进行了绝对误差比较,证明MLH_RK方法是最优且最接近期望值的方法。对结果进行了讨论,并将其制成表格,用图形表示出来。使用所建议的方法预测了到2025年今后两年的流行病行为。
Comparison of Some Numerical Simulation Techniques for COVID-19 Model in Iraq
The aim of our study is to solve a nonlinear epidemic model, which is the COVID-19 epidemic model in Iraq, through the application of initial value problems in the current study. The model has been presented as a system of ordinary differential equations that has parameters that change with time. Two numerical simulation methods are proposed to solve this model as suitable methods for solving systems whose coefficients change over time. These methods are the Mean Monte Carlo Runge-Kutta method (MMC_RK) and the Mean Latin Hypercube Runge-Kutta method (MLH_RK). The results of numerical simulation methods are compared with the results of the numerical Runge-Kutta 4th order method (RK4) from 2021 to 2025 using the absolute error, which proves that the MLH_RK method is the best and closest to the expected values. The results have been discussed after being tabulated and represented graphically. Epidemic behavior for the next two years until 2025 has been projected using the proposed methods.
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