Numerical study for epidemic model of hepatitis-B virus
Hepatitis-B is a highly infectious disease and causes many worldwide deaths. In this article, a mathematical model of hepatitis-B virus is described. The optimal existence and optimality conditions for the existence of solutions of the concerned model are established. The numerical behavior of the c...
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Veröffentlicht in: | European physical journal plus 2021-04, Vol.136 (4), p.367, Article 367 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Hepatitis-B is a highly infectious disease and causes many worldwide deaths. In this article, a mathematical model of hepatitis-B virus is described. The optimal existence and optimality conditions for the existence of solutions of the concerned model are established. The numerical behavior of the continuous system, susceptible–exposed–acute–carrier–hospitalized–recovered, of hepatitis-B virus is also discussed. Stability of the equilibrium points is studied using Routh–Hurwitz stability criteria. To study this model numerically, a nonstandard finite difference (NSFD) scheme is designed which has the most important features, for instance, unconditional stability, positivity and convergence of the continuous system. Basic reproduction number
R
0
that imparts a decisive role in disease prediction as well as stability analysis is described. It is observed that disease vanishes when the value of
R
0
is less then unity and it persists for
R
0
>
1
. Stability analysis is carried out, and two bench mark results for the system to be locally asymptotically stable are established. Comparison of the NSFD scheme with two renowned techniques, RK-4 and Forward Euler’s method, is shown in this study. Numerical simulations show that proposed NSFD scheme is convergent to the steady states at all step sizes. It shows that the proposed scheme is independent of the step size while the other two existing schemes do not observe this property. Also, the other methods do not preserve some of the main conditions of the continuous system at certain time steps. |
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ISSN: | 2190-5444 2190-5444 |
DOI: | 10.1140/epjp/s13360-021-01248-8 |