Title of article
On the dynamics of dengue epidemics from large-scale information
Author/Authors
Annelise Tran، نويسنده , , Marcel Raffy، نويسنده ,
Issue Information
دوماهنامه با شماره پیاپی سال 2006
Pages
10
From page
3
To page
12
Abstract
A model for the spatial and temporal dynamics of dengue fever is proposed in this article. The vector population dynamics is derived from a diffusion equation that is based on environmental parameters at the scale of a remote-sensing image. Vectors and hosts populations are then classically divided into compartments corresponding to their respective disease status. The transmission processes between hosts and vectors are described by a set of differential equations.
The link between the vector population diffusion model and the compartmental model enables one to describe both the spatial and temporal dynamics of the disease. Simulations in artificial and actual landscapes show the advantage of using remotely sensed and complementary meteorological data for modelling in a realistic way the geographic spread of a vector-borne disease such as dengue fever.
Keywords
Dengue fever , Remote sensing , Vector-borne disease , Population dynamics , Diffusion process
Journal title
Theoretical Population Biology
Serial Year
2006
Journal title
Theoretical Population Biology
Record number
773873
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