Sharma, S., V.H. Badshah and V. Gupta, 2018. Mathematical analysis of tuberculosis with drug resistance to the first and second line of treatment. J. New Theory, 21: 94-108.
Sharma, S., V.H. Badshah and V. Gupta, 2017. Global dynamics of highly pathogenic avian influenza epidemic model with vertical transmission function. Int. J. Adv. Res. Sci. Eng., 6: 535-545.
Sharma, S., V.H. Badshah and V. Gupta, 2017. An SIRI epidemic model with modified nonlinear incidence rate and latent period. Asian J. Math. Stat., 10: 1-12. CrossRef | Direct Link |
Sharma, S., V. Badshah and V. Gupta, 2017. Analysis of an SEIR epidemic model with a saturated incidence rate. Asian J. Math. Comput. Res., 19: 124-138.
Baghel, P., V.H. Badshah, T.K. Jhala and S. Sharma, 2017. A mathematical model of typhoid with drug resistance effect. Int. J. Math. Applic., 5: 793-799. Direct Link |
Sharma, S., V.H. Badshah and V. Gupta, 2016. Stability analysis of a delayed SIR model with nonlinear incidence rate. Int. J. Applied Math. Stat. Sci., 5: 1-8.
Sharma, S., V.H. Badshah and V. Gupta, 2016. Analysis of an improved SIRS epidemic model with disease related death rate and emigration rate. Am. J. Eng. Res., 5: 182-188.
Sharma, S., 2016. The highly pathogenic avian influenza epidemic model with vertical transmission function in poultry. IOSR J. Math., 12: 40-48.
Sharma, S., 2016. Global stability of highly pathogenic avian influenza epidemic model with vertical transmission function. Bangmod. Int. J. Math. Comput. Sci., 2: 16-23.
Sharma, S., V.H. Badshah and V. Gupta, 2015. Rich dynamics of an SIRS epidemic model with disease related death rate Bangmod. Int. J. Math. Comput. Sci., 11: 97-104. Direct Link |
Sharma, S., V.H. Badshah and V. Gupta, 2015. An SIRS model with emigration rate and simple mass action incidence. Int. J. Math. Arch., 6: 85-89.
Sharma, S., 2015. Analysis of an SIRS epidemic model with asymptotically homogeneous transmission function and emigration rate. Asian J. Math. Comput. Res., 6: 159-167.