A. A. Arafa, S. Z. Rida, and M. Khalil, Fractional modeling dynamics of HIV and CD4 + T-cells during primary infection, Nonlinear Biomedical Physics, vol.6, issue.1, pp.1-7, 2012.

Y. Liu, J. Xiong, C. Hu, and C. Wu, Stability Analysis for Fractional Differential Equations of an HIV Infection Model with Cure Rate, Proceedings of the IEEE International Conference on Information and Automation, 2016.

S. M. Salman and A. M. Yousef, On a fractional-order model for HBV infection with cure of infected cells, Journal of the Egyptian Mathematical Society, vol.25, issue.4, pp.445-451, 2017.

A. Boukhouima, K. Hattaf, and N. Yousfi, Dynamics of a Fractional Order HIV Infection Model with Specific Functional Response and Cure Rate, International Journal of Differential Equations, pp.1-8, 2017.

K. Hattaf, N. Yousfi, and A. Tridane, Stability analysis of a virus dynamics model with general incidence rate and two delays, Applied Mathematics and Computation, vol.221, pp.514-521, 2013.

J. Adnani, K. Hattaf, and N. Yousfi, Stability analysis of a stochastic SIR epidemic model with specific nonlinear incidence rate, Int. J. Stoch. Anal, 2013.

K. Hattaf and N. Yousfi, Global dynamics of a delay reaction-diffusion model for viral infection with specific functional response, Computational and Applied Mathematics, vol.34, pp.807-818, 2015.

M. Maziane, E. M. Lotfi, K. Hattaf, and N. Yousfi, Dynamics of class of HIV infection models with cure of infected cells in eclipse stage, Acta Biotheoretica, vol.63, pp.363-380, 2015.

M. Maziane, K. Hattaf, and N. Yousfi, Global stability for a class of HIV infection models with cure of infected cells in eclipse stage and CTL immune response, Int. J. Dynam. Control, vol.5, pp.1035-1045, 2017.

J. R. Beddington, Mutual interference between parasites or predators and its effect on searching efficiency, J. Animal Ecol, vol.44, pp.331-340, 1975.

D. L. Deangelis, R. A. Goldstein, and R. V. O'neill, A model for trophic interaction, Ecology, pp.881-892, 1975.

P. H. Crowley and E. K. Martin, Functional responses and interference within and between year classes of a dragonfly population, J. North. Am. Benth. Soc, vol.8, pp.211-221, 1989.

Z. Odibat and S. Momani, An algorithm for the numerical solution of differential equations of fractional order, J. Appl. Math. Inform, vol.26, pp.15-27, 2008.

L. Rong, M. A. Gilchrist, Z. Feng, and A. S. Perelson, Modeling within-host HIV-1 dynamics and the evolution of drug resistance :trade-offs between viral enzyme function and drug susceptibility, J. Theoret, vol.247, pp.804-818, 2007.

J. Huo, H. Zhao, and L. Zhu, The effect of vaccines on backward bifurcation in a fractional order HIV model, Nonlinear Analysis: Real World Applications, vol.26, pp.289-305, 2015.

Z. Hu, W. Pang, F. Liao, and W. Ma, Analysis of a CD4+ T cell viral infection model with a class of saturated infection rate, Discrete Continuous Dyn Syst Ser B, vol.19, pp.735-745, 2014.

K. S. Cole, Electric conductance of biological systems, Cold Spring Harbor Symposia on Quantitative Biology, vol.1, pp.107-116, 1933.

A. A. Arafa, S. Z. Rida, and M. Khalil, A fractional-order model of HIV infection: numerical solution and comparisons with data of patients, International Journal of Biomathematics, vol.7, pp.1450036-1450037, 2014.

C. V. De-leon, Volterra-type Lyapunov functions for fractional-order epidemic systems, Communications in Nonlinear Science and Numerical Simulation, vol.24, pp.75-85, 2015.