Numerical approximation for HIV infection of CD4+ T cells mathematical model

Liancheng, 2006, Mathematical analysis of the global dynamics of a model for HIV infection of CD4+ T cells, Math Biosci, 200, 44, 10.1016/j.mbs.2005.12.026 Asquith, 2003, The dynamics of T-cell fratricide: application of a robust approach to mathematical modeling in immunology, J Theoret Biol, 222, 53, 10.1016/S0022-5193(03)00013-4 Nowak, 1991, Mathematical biology of HIV infections: antigenic variation and diversity threshold, Math Biosci, 106, 1, 10.1016/0025-5564(91)90037-J Perelson, 1999, Mathematical analysis of HIV-I dynamics in vivo, SIAM Rev, 41, 3, 10.1137/S0036144598335107 Arafa, 2012, Fractional modeling dynamics of HIV and CD4+ T-cells during primary infection, Nonlinear Biomed Phys, 36 Ongun, 2011, The Laplace Adomian Decomposition Method for solving a model for HIV infection of CD4+T cells, Math Comput Model, 53, 597, 10.1016/j.mcm.2010.09.009 Yüzbaşı, 2012, A numerical approach to solve the model for HIV infection of CD4+T cells, App Math Model, 36, 5876, 10.1016/j.apm.2011.12.021 Dogan N. Numerical treatment of the model for HIV infection of CD+4T cells by using multistep Laplace Adomian Decomposition Method. Discrete Dynamics in Nature and Society Volume; 2012. Article ID 976352. Zhou, 1986 Fatma, 2004, Solutions of the system of differential equations by differential transform method, Appl Math Comput, 147, 547, 10.1016/S0096-3003(02)00794-4 Fatma, 2004, Application of differential transform method to differential–algebraic equations, Appl Math Comput, 152, 649, 10.1016/S0096-3003(03)00581-2 Arikoglu, 2005, Solution of boundary value problems for integro-differential equations by using differential transform method, Appl Math Comput, 168, 1145, 10.1016/j.amc.2004.10.009 Srivastava, 2014, (1+n)-Dimensional Burgers’ equation and its analytical solution: A comparative study of HPM, ADM and DTM, Ain Shams Eng J, 5, 533, 10.1016/j.asej.2013.10.004