Garba S, Gumel A, Lubuma JM-S Dynamically-consistent non-standard finite difference method for an epidemic model. Mathematical and Computer Modelling, 53(2011), 131-150
Garba SM, Imran M, Mohammed TM Deterministic model for the role of antivirals in controlling the spread of the H1N1 influenza pandemic. Electronic Journal of Differential Equations, 155(2011), 1-21
Safi MA, Garba SM Global stability analysis of SEIR model with Holling type II incidence function. Computational and Mathematical Methods in Medicine, (2012) Article ID 826052, 8 pages electronic article
Garba SM, Safi MA, Gumel AB Cross-immunity-induced backward bifurcation for a model of transmission dynamics of two strains of influenza. Nonlinear Analysis-Real World Applications, 14(2013), 1384-1403
Garba SM, Safi MA Mathematical analysis of West Nile virus model with discrete delays. Acta Mathematica Scientia, 33B(5)(2013), 1439-1462
Garba SM, Gumel AB, Hussaini N Mathematical analysis of an age-structured vaccination model for measles. Journal of the Nigerian Mathematical Society (JNMS), 33(2014), 41-76
Anguelov R, Garba SM, Usaini S Backward bifurication analysis of epidemic model with partial immunity. Computers and Mathematics with Applications, 68(2014), 931-940
Garba SM, Gumel A, Hassan AS, Lubuma JM-S Switching from exact scheme to nonstandard finite difference scheme for linear delay differential equation. Applied Mathematics and Computation, 258(2015), 388-403
Usaini S, Anguelov R, Garba SM Dynamics of SI Epidemic with a Demographic Allee Effect. Theoretical Population Biology, 106(2015), 1–13
Usaini S, Lloyd A, Anguelov R, Garba SM Dynamical behavior of an epidemiological model with a demographic Allee effect. Mathematics and Computers in Simulation 133(2017), 311–325
Garba SM, Safi MA, Usaini S Mathematical model for assesing the impact of vaccination and treatment on measles transmission dynamics. Math Meth Appl Sci. 40(2017) 6371–6388
Garba SM, Mumba CK Mathematical Modelling for the transmission dynamics of Trichomonas Vaginalis (TV) and HIV. Mathematical Methods in the Applied Sciences 41(2018) 8741-8764
Danbaba UA, Garba SM Modeling the transmission dynamics of Zika with sterile insect technique. Mathematical Methods in the Applied Sciences 41(2018) 8871-8896
Garba SM, Garba DL, Gumel AB, Sharomi O Mathematics of FIV and BTB Dynamics in Buffalo and Lion Populations at Kruger National Park. Mathematical Methods in the Applied Sciences 41(2018) 8697-8723
Usain S, Hassan AS, Garba SM, Lubuma JM-S Modeling the transmission dynamics of the Middle East Respiratory Syndrome Coronavirus (MERS-CoV) with latent immigrants. Journal of Interdisciplinary Mathematics 22(6)(2019) 903-930
Garba S, Lubuma JM-S, Tsanou B Modeling the transmission dynamics of the COVID-19 Pandemic in South Africa. Mathematical Biosciences 328(2020) 108441 1-14
Danbaba UA, Garba SM Stability Analysis and Optimal Control for Yellow Fever Model with Vertical Transmission. Int. J. Appl. Comput. Math 6(2020) 105 1-34
Garba SM, Danbaba UA Modeling the effect of temperature variability on malaria control strategies. Mathematical Modelling of Natural Phenomena 15(65)(2020) 1-43
Conference proceedings
Danbaba UA, Garba SM Analysis of model for the transmission dynamics of Zika with sterile insect technique, in R. Anguelov, M. Lachowicz (Editors), Mathematical Methods and Models in Biosciences, Biomath Forum, Sofia, (2018) 81-99
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