A spatial multiscale mathematical model of \textit{Plasmodium vivax} transmission
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Publication:6659468
DOI10.1007/S00285-024-02166-WMaRDI QIDQ6659468
Somya Mehra, Mark B. Flegg, Shoshana Elgart, Jennifer A. Flegg
Publication date: 9 January 2025
Published in: Journal of Mathematical Biology (Search for Journal in Brave)
Epidemiology (92D30) Biological applications of optics and electromagnetic theory (78A70) Dynamical systems in biology (37N25)
Cites Work
- Assessing the role of spatial heterogeneity and human movement in malaria dynamics and control
- A unified Floquet theory for discrete, continuous, and hybrid periodic linear systems
- Equations with infinite delay: blending the abstract and the concrete
- Models of infectious diseases in spatially heterogeneous environments
- The Ross-MacDonald model in a patchy environment
- A multiscale mathematical model of \textit{Plasmodium vivax} transmission
- Hypnozoite dynamics for \textit{Plasmodium vivax} malaria: the epidemiological effects of radical cure
- A Multipatch Malaria Model with Logistic Growth Populations
- Regional control for a spatially structured malaria model
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