The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells
This research presents a deep insight to address the notion of stability of an epidemical model of the HIV infection of CD4+ T-Cells. Initially, the stability of an ordinary differential equation (ODE) model is studied. This is followed by studying a delay differential equation (DDE) model the HIV i...
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Online Access: | http://eprints.utm.my/id/eprint/97587/1/NormahMaan2021_TheNotionofStabilityofaDifferential.pdf http://eprints.utm.my/id/eprint/97587/ http://dx.doi.org/10.46300/9102.2021.15.4 |
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my.utm.975872022-10-18T02:58:47Z http://eprints.utm.my/id/eprint/97587/ The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells Maan, Normah Khan, Izaz Ullah Zulkefli, Nor Atirah Izzah QA Mathematics This research presents a deep insight to address the notion of stability of an epidemical model of the HIV infection of CD4+ T-Cells. Initially, the stability of an ordinary differential equation (ODE) model is studied. This is followed by studying a delay differential equation (DDE) model the HIV infection of CD4+ T-Cells. The available literature on the stability analysis of the ODE model and the DDE model of the CD4+ T-Cells shows that the stability of the models depends on the basic reproduction number “R0”. Accordingly, for the basic reproduction number R0 <1, the model is asymptotically stable, whereas, for R0 >1, the models are globally stable. This research further studies the stability of the models and address the lower possible stability limits for the infection rate of CD4+ T-Cells with virus and the reproduction rate of infectious CD4+ T-Cells, respectively. Accordingly, the results shows that the lower possible limits for the infection rate of CD4+ T-Cells with virus are 0.0000027 mm-3 and 0.000066 mm-3 for the ODE and DDE models, respectively. Again, the lower stability limits for the reproduction rate of infectious CD4+ T-Cells with virus are 12 mm3day-1 and 273.4 mm3day-1 for the ODE and DDE models, respectively. The research minutely studies the stability of the models and gives a deep insight of the stability of the ODE and DDE models of the HIV infection of CD4+ T-Cells with virus. NAUN 2021 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/97587/1/NormahMaan2021_TheNotionofStabilityofaDifferential.pdf Maan, Normah and Khan, Izaz Ullah and Zulkefli, Nor Atirah Izzah (2021) The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells. International Journal of Mathematics and Computers in Simulation, 15 (NA). pp. 20-23. ISSN 1998-0159 http://dx.doi.org/10.46300/9102.2021.15.4 DOI:10.46300/9102.2021.15.4 |
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QA Mathematics Maan, Normah Khan, Izaz Ullah Zulkefli, Nor Atirah Izzah The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells |
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This research presents a deep insight to address the notion of stability of an epidemical model of the HIV infection of CD4+ T-Cells. Initially, the stability of an ordinary differential equation (ODE) model is studied. This is followed by studying a delay differential equation (DDE) model the HIV infection of CD4+ T-Cells. The available literature on the stability analysis of the ODE model and the DDE model of the CD4+ T-Cells shows that the stability of the models depends on the basic reproduction number “R0”. Accordingly, for the basic reproduction number R0 <1, the model is asymptotically stable, whereas, for R0 >1, the models are globally stable. This research further studies the stability of the models and address the lower possible stability limits for the infection rate of CD4+ T-Cells with virus and the reproduction rate of infectious CD4+ T-Cells, respectively. Accordingly, the results shows that the lower possible limits for the infection rate of CD4+ T-Cells with virus are 0.0000027 mm-3 and 0.000066 mm-3 for the ODE and DDE models, respectively. Again, the lower stability limits for the reproduction rate of infectious CD4+ T-Cells with virus are 12 mm3day-1 and 273.4 mm3day-1 for the ODE and DDE models, respectively. The research minutely studies the stability of the models and gives a deep insight of the stability of the ODE and DDE models of the HIV infection of CD4+ T-Cells with virus. |
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Article |
author |
Maan, Normah Khan, Izaz Ullah Zulkefli, Nor Atirah Izzah |
author_facet |
Maan, Normah Khan, Izaz Ullah Zulkefli, Nor Atirah Izzah |
author_sort |
Maan, Normah |
title |
The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells |
title_short |
The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells |
title_full |
The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells |
title_fullStr |
The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells |
title_full_unstemmed |
The notion of stability of a differential equation and delay differential equation model of HIV infection of CD4+ T-Cells |
title_sort |
notion of stability of a differential equation and delay differential equation model of hiv infection of cd4+ t-cells |
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NAUN |
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2021 |
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http://eprints.utm.my/id/eprint/97587/1/NormahMaan2021_TheNotionofStabilityofaDifferential.pdf http://eprints.utm.my/id/eprint/97587/ http://dx.doi.org/10.46300/9102.2021.15.4 |
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13.160551 |