Mathematical Modeling of Covid-19 and Dengue Co-Infection Dynamics in Bangladesh: Optimal Control and Data-Driven Analysis-Reference-Cited by-同舟云学术

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Mathematical Modeling of Covid-19 and Dengue Co-Infection Dynamics in Bangladesh: Optimal Control and Data-Driven Analysis

Published:2022-04 Issue:2 Volume:33 Page:173-192
ISSN:1046-283X
Container-title:Computational Mathematics and Modeling
language:en
Short-container-title:Comput Math Model

Author:

Hye Md. Abdul,Biswas M. A. Haider Ali,Uddin Mohammed Forhad,Saifuddin Mohammad

Publisher

Springer Science and Business Media LLC

Subject

Computational Mathematics

Link

https://link.springer.com/content/pdf/10.1007/s10598-023-09564-7.pdf

Reference22 articles.

1. B. Crawford and C. Kribs-Zaleta, “A metapopulation model for sylvatic T. Cruzi transmission with vector migration,” Math. Biosci. Eng., 11, No. 3, 471–509 (2014).

2. C. Kribs-Zaleta, “Vector consumption and contact process saturation in sylvatic transmission of T. cruzi,” Math. Pop. Stud., 13, No. 3, 135–152 (2016).

3. H. Nishiura, . Castillo-Chave, M. Safan, and G. Chowell, “Transmission potential of the new influenza A(H1N1) virus and its agespecificity in Japan,” Euro Surveill., 14, No. 22 (2009).

4. D. Dwomo, S. Idd, B. Ad, J. M. Ahet, K. M. Sedzr, J. Fobi, and S. Bosomprah, “Mathematical modeling of COVID-19 infection dynamics in Ghana: Impact evaluation of integrated government and individual level interventions,” Infect Dis Model., 6, 381–397 (2021); 10.1016/j.idm.2021.01.008.

5. D. P. van den and J. Watmough, “Reproduction numbers and sub-threshold endemic equilibria for compartmental models of disease transmission,” Math. Biosci., 180, No. 1, 29–48 (2002); doi: https://doi.org/10.1016/s0025-5564(02)00108-6.

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