The Analysis of SEIRS-SEI Epidemic Models on Malaria with Regard to Human Recovery Rate
This article discusses SEIRS-SEI epidemic models on malaria with regard to human recovery rate. SEIRS-SEI in this model is an abbreviation of the population class used in the model, ie Susceptible, Exposed, Infected, and Recovered populations in humans and Susceptible, Exposed, and Infected populati...
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| Language: | English |
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Syiah Kuala University
2017-12-01
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| Series: | Aceh International Journal of Science and Technology |
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| Online Access: | https://jurnal.usk.ac.id/AIJST/article/view/9303 |
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| author | Resmawan Resmawan Paian Sianturi Endar Hasafah Nugrahani |
| author_facet | Resmawan Resmawan Paian Sianturi Endar Hasafah Nugrahani |
| author_sort | Resmawan Resmawan |
| collection | DOAJ |
| description | This article discusses SEIRS-SEI epidemic models on malaria with regard to human recovery rate. SEIRS-SEI in this model is an abbreviation of the population class used in the model, ie Susceptible, Exposed, Infected, and Recovered populations in humans and Susceptible, Exposed, and Infected populations in mosquito. These epidemic models belong to mathematical models which clarify a phenomenon of epidemic transmission of malaria by observing the human recovery rate after being infected and susceptible. Human population falls into four classes, namely susceptible humans, exposed humans, infected humans, and recovered humans. Meanwhile, mosquito population serving as vectors of the disease is divided into three classes, including susceptible mosquitoes, exposed mosquitoes, and infected mosquitoes. Such models are termed SEIRS-SEI epidemic models. Analytical discussion covers model formation, existence and stability of equilibrium points, as well as numerical simulation to find out the influence of human recovery rate on population dynamics of both species. The results show that the fixed point without disease ( ) is stable in condition and unstable in condition . The simulation results show that the given treatment has an influence on the dynamics of the human population and mosquitoes. If the human recovery rate from the infected state becomes susceptible to increased, then the number of infected populations of both species will decrease. As a result, the disease will not spread and within a certain time will disappear from the population. |
| format | Article |
| id | doaj-art-b5fbf73f8764475d80bbdadbd570dbae |
| institution | DOAJ |
| issn | 2088-9860 |
| language | English |
| publishDate | 2017-12-01 |
| publisher | Syiah Kuala University |
| record_format | Article |
| series | Aceh International Journal of Science and Technology |
| spelling | doaj-art-b5fbf73f8764475d80bbdadbd570dbae2025-08-20T02:58:29ZengSyiah Kuala UniversityAceh International Journal of Science and Technology2088-98602017-12-016313214010.13170/aijst.6.3.93037215The Analysis of SEIRS-SEI Epidemic Models on Malaria with Regard to Human Recovery RateResmawan Resmawan0Paian Sianturi1Endar Hasafah Nugrahani21Mathematics Department, State University of GorontaloMathematics Department, Bogor Agricultural UniversityMathematics Department, Bogor Agricultural UniversityThis article discusses SEIRS-SEI epidemic models on malaria with regard to human recovery rate. SEIRS-SEI in this model is an abbreviation of the population class used in the model, ie Susceptible, Exposed, Infected, and Recovered populations in humans and Susceptible, Exposed, and Infected populations in mosquito. These epidemic models belong to mathematical models which clarify a phenomenon of epidemic transmission of malaria by observing the human recovery rate after being infected and susceptible. Human population falls into four classes, namely susceptible humans, exposed humans, infected humans, and recovered humans. Meanwhile, mosquito population serving as vectors of the disease is divided into three classes, including susceptible mosquitoes, exposed mosquitoes, and infected mosquitoes. Such models are termed SEIRS-SEI epidemic models. Analytical discussion covers model formation, existence and stability of equilibrium points, as well as numerical simulation to find out the influence of human recovery rate on population dynamics of both species. The results show that the fixed point without disease ( ) is stable in condition and unstable in condition . The simulation results show that the given treatment has an influence on the dynamics of the human population and mosquitoes. If the human recovery rate from the infected state becomes susceptible to increased, then the number of infected populations of both species will decrease. As a result, the disease will not spread and within a certain time will disappear from the population.https://jurnal.usk.ac.id/AIJST/article/view/9303epidemic models, seirs-sei, malaria, human recovery |
| spellingShingle | Resmawan Resmawan Paian Sianturi Endar Hasafah Nugrahani The Analysis of SEIRS-SEI Epidemic Models on Malaria with Regard to Human Recovery Rate Aceh International Journal of Science and Technology epidemic models, seirs-sei, malaria, human recovery |
| title | The Analysis of SEIRS-SEI Epidemic Models on Malaria with Regard to Human Recovery Rate |
| title_full | The Analysis of SEIRS-SEI Epidemic Models on Malaria with Regard to Human Recovery Rate |
| title_fullStr | The Analysis of SEIRS-SEI Epidemic Models on Malaria with Regard to Human Recovery Rate |
| title_full_unstemmed | The Analysis of SEIRS-SEI Epidemic Models on Malaria with Regard to Human Recovery Rate |
| title_short | The Analysis of SEIRS-SEI Epidemic Models on Malaria with Regard to Human Recovery Rate |
| title_sort | analysis of seirs sei epidemic models on malaria with regard to human recovery rate |
| topic | epidemic models, seirs-sei, malaria, human recovery |
| url | https://jurnal.usk.ac.id/AIJST/article/view/9303 |
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