A numerical approach to solve the model for HIV infection of CD4~+T cells

Suayip Yuezbasi

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A numerical approach to solve the model for HIV infection of CD4~+T cells

机译：解决CD4〜+ T细胞HIV感染模型的数值方法

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In this study, we will obtain the approximate solutions of the HIV infection model of CD4~+T by developing the Bessel collocation method. This model corresponds to a class of nonlinear ordinary differential equation systems. Proposed scheme consists of reducing the problem to a nonlinear algebraic equation system by expanding the approximate solutions by means of the Bessel polynomials with unknown coefficients. The unknown coefficients of the Bessel polynomials are computed using the matrix operations of derivatives together with the collocation method. The reliability and efficiency of the proposed approach are demonstrated in the different time intervals by a numerical example. All computations have been made with the aid of a computer code written in Maple 9.

机译：在本研究中，我们将通过开发Bessel配置方法来获得CD4〜+ T的HIV感染模型的近似解。该模型对应于一类非线性常微分方程系统。所提出的方案包括通过利用系数未知的贝塞尔多项式来扩展近似解，从而将问题简化为非线性代数方程组。贝塞尔多项式的未知系数是使用导数的矩阵运算以及搭配方法来计算的。通过数值实例证明了所提出方法的可靠性和效率。所有计算都是借助于Maple 9编写的计算机代码完成的。

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来源
《Applied Mathematical Modelling》 |2012年第12期|p.5876-5890|共15页
作者
Suayip Yuezbasi;
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作者单位

Department of Mathematics, Faculty of Science, Mugla University, Mugla, Turkey;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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关键词
A model for HIV infection of CD4~+T cells; bessel collocation method; numerical solution; nonlinear differential equation systems; bessel polynomials and series;

机译：HIV感染CD4〜+ T细胞的模型;贝塞尔搭配法;数值解非线性微分方程系统;贝塞尔多项式和级数;
入库时间 2022-08-18 03:00:00

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1. On the Numerical Method for Solving a System of Nonlinear Fractional Ordinary Differential Equations Arising in HIV Infection of CD4~+ T Cells [J] . Mirzaee Farshid, Samadyar Nasrin Iranian Journal of Science and Technology. Transaction A, Science . 2019,第3期

机译：关于HIV感染CD4〜+ T细胞的非线性分数阶常微分方程组的数值解法
2. Theoretical and Numerical Study for Solving the Fractional Modeling Dynamics of Human Immunodeficiency Virus and CD4~+ T-Cells During Primary Infection [J] . M. M. Khader, Mohammed M. Babatin Journal of computational and theoretical nanoscience . 2016,第5期

机译：求解人免疫缺陷病毒和CD4〜+ T细胞分数建模动态的理论和数值研究
3. The Modeling Dynamics of HIV and CD4 T-cells During Primary Infection in Fractional Order: Numerical Simulation [J] . Khader M. M. Mediterranean journal of mathematics . 2018,第3期

机译：分数阶初级感染期间HIV和CD4 T细胞的建模动态：数值模拟
4. A numerical algorithm of parameter estimation for dynamic model for HIV infection of CD4+ t cells [C] . Kabanikhin Sergey, Krivorotko Olga, Mortier Adele, 2015 International Conference on Biomedical Engineering and Computational Technologies . 2015

机译：CD4 + t细胞HIV感染动力学模型参数估计的数值算法
5. CD4+ T Cell Recovery and Cerebrospinal Fluid Escape After Antiretroviral Therapy Initiation in Acute HIV-1 Infection [D] . ?Handoko, Ryan Christopher 2020

机译：CD4 + T 细胞回收和急性 HIV-1 感染脑脊液逃逸抗逆转录病毒疗法开始后
6. A new numerical approach to solve Thomas–Fermi model of an atom using bio-inspired heuristics integrated with sequential quadratic programming [O] . Muhammad Asif Zahoor Raja, Aneela Zameer, Aziz Ullah Khan, -1

机译：一种新的数值方法使用结合顺序二次规划的生物启发式启发法来求解原子的Thomas-Fermi模型
7. A Neural Network Approach for Solving Fractional-Order Model of HIV Infection of CD4+T-Cells [O] . Samaneh Soradi Zeid 2016

机译：一种求解CD4 + T细胞HIV感染分数阶模型的神经网络方法

A numerical approach to solve the model for HIV infection of CD4~+T cells

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