The Complex Dynamics of Hepatitis B Infected Individuals with Optimal Control

This paper proposes various stages of the hepatitis B virus (HBV) besides its transmissibility and nonlinear incidence rate to develop an epidemic model. The authors plan the model, and then prove some basic results for the well-posedness in term of boundedness and positivity. Moreover, the authors...

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Published in	Journal of systems science and complexity Vol. 34; no. 4; pp. 1301 - 1323
Main Authors	Din, Anwarud, Li, Yongjin, Shah, Murad Ali
Format	Journal Article
Language	English
Published	Beijing Academy of Mathematics and Systems Science, Chinese Academy of Sciences 01.08.2021 Springer Nature B.V
Subjects	Complex Systems Control Hepatitis B Mathematics Mathematics and Statistics Mathematics of Computing Operations Research/Decision Theory Optimal control Optimization Runge-Kutta method Sensitivity analysis Stability analysis Statistics Systems Theory reproduction number Hepatitis B epidemic model non-linear incidence stability analysis normalized sensitivity index optimization theory numerical simulation
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Abstract	This paper proposes various stages of the hepatitis B virus (HBV) besides its transmissibility and nonlinear incidence rate to develop an epidemic model. The authors plan the model, and then prove some basic results for the well-posedness in term of boundedness and positivity. Moreover, the authors find the threshold parameter R 0 , called the basic/effective reproductive number and carry out local sensitive analysis. Furthermore, the authors examine stability and hence condition for stability in terms of R 0 . By using sensitivity analysis, the authors formulate a control problem in order to eradicate HBV from the population and proved that the control problem actually exists. The complete characterization of the optimum system was achieved by using the 4 th -order Runge-Kutta procedure.
AbstractList	This paper proposes various stages of the hepatitis B virus (HBV) besides its transmissibility and nonlinear incidence rate to develop an epidemic model. The authors plan the model, and then prove some basic results for the well-posedness in term of boundedness and positivity. Moreover, the authors find the threshold parameter R 0 , called the basic/effective reproductive number and carry out local sensitive analysis. Furthermore, the authors examine stability and hence condition for stability in terms of R 0 . By using sensitivity analysis, the authors formulate a control problem in order to eradicate HBV from the population and proved that the control problem actually exists. The complete characterization of the optimum system was achieved by using the 4 th -order Runge-Kutta procedure. This paper proposes various stages of the hepatitis B virus (HBV) besides its transmissibility and nonlinear incidence rate to develop an epidemic model. The authors plan the model, and then prove some basic results for the well-posedness in term of boundedness and positivity. Moreover, the authors find the threshold parameter R0, called the basic/effective reproductive number and carry out local sensitive analysis. Furthermore, the authors examine stability and hence condition for stability in terms of R0. By using sensitivity analysis, the authors formulate a control problem in order to eradicate HBV from the population and proved that the control problem actually exists. The complete characterization of the optimum system was achieved by using the 4th-order Runge-Kutta procedure. This paper proposes various stages of the hepatitis B virus (HBV) besides its transmissibility and nonlinear incidence rate to develop an epidemic model. The authors plan the model, and then prove some basic results for the well-posedness in term of boundedness and positivity. Moreover, the authors find the threshold parameter , called the basic/effective reproductive number and carry out local sensitive analysis. Furthermore, the authors examine stability and hence condition for stability in terms of . By using sensitivity analysis, the authors formulate a control problem in order to eradicate HBV from the population and proved that the control problem actually exists. The complete characterization of the optimum system was achieved by using the 4 -order Runge-Kutta procedure. This paper proposes various stages of the hepatitis B virus (HBV) besides its transmissibility and nonlinear incidence rate to develop an epidemic model. The authors plan the model, and then prove some basic results for the well-posedness in term of boundedness and positivity. Moreover, the authors find the threshold parameter R 0, called the basic/effective reproductive number and carry out local sensitive analysis. Furthermore, the authors examine stability and hence condition for stability in terms of R 0. By using sensitivity analysis, the authors formulate a control problem in order to eradicate HBV from the population and proved that the control problem actually exists. The complete characterization of the optimum system was achieved by using the 4th-order Runge-Kutta procedure.This paper proposes various stages of the hepatitis B virus (HBV) besides its transmissibility and nonlinear incidence rate to develop an epidemic model. The authors plan the model, and then prove some basic results for the well-posedness in term of boundedness and positivity. Moreover, the authors find the threshold parameter R 0, called the basic/effective reproductive number and carry out local sensitive analysis. Furthermore, the authors examine stability and hence condition for stability in terms of R 0. By using sensitivity analysis, the authors formulate a control problem in order to eradicate HBV from the population and proved that the control problem actually exists. The complete characterization of the optimum system was achieved by using the 4th-order Runge-Kutta procedure.
Author	Din, Anwarud Shah, Murad Ali Li, Yongjin
Author_xml	– sequence: 1 givenname: Anwarud surname: Din fullname: Din, Anwarud organization: Department of Mathematics, Sun Yat-sen University – sequence: 2 givenname: Yongjin surname: Li fullname: Li, Yongjin email: stslyj@mail.sysu.edu.cn organization: Department of Mathematics, Sun Yat-sen University – sequence: 3 givenname: Murad Ali surname: Shah fullname: Shah, Murad Ali organization: School of Mathematical Sciences, Beijing Normal University
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Snippet	This paper proposes various stages of the hepatitis B virus (HBV) besides its transmissibility and nonlinear incidence rate to develop an epidemic model. The...
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SubjectTerms	Complex Systems Control Hepatitis B Mathematics Mathematics and Statistics Mathematics of Computing Operations Research/Decision Theory Optimal control Optimization Runge-Kutta method Sensitivity analysis Stability analysis Statistics Systems Theory
Title	The Complex Dynamics of Hepatitis B Infected Individuals with Optimal Control
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