The interplay between models and public health policies: Regional control for a class of spatially structured epidemics (think globally, act locally)

The interplay between models and public health policies: Regional control for a class of spatially structured epidemics (think globally, act locally)

A review is presented here of the research carried out, by a group including the authors, on the mathematical analysis of epidemic systems. Particular attention is paid to recent analysis of optimal control problems related to spatially structured epidemics driven by environmental pollution. A relev...

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Bibliographic Details
Main Authors: Vincenzo Capasso, Sebastian AniȚa
Format: Article
Language:English
Published: AIMS Press 2018-01-01
Series:Mathematical Biosciences and Engineering
Subjects:
epidemic systems
nonlinear models
man-environment epidemics
reaction-diffusion systems
stabilization
principal eigenvalue
feedback control
optimal regional control
Online Access:https://www.aimspress.com/article/doi/10.3934/mbe.2018001
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Summary:A review is presented here of the research carried out, by a group including the authors, on the mathematical analysis of epidemic systems. Particular attention is paid to recent analysis of optimal control problems related to spatially structured epidemics driven by environmental pollution. A relevant problem, related to the possible eradication of the epidemic, is the so called zero stabilization. In a series of papers, necessary conditions, and sufficient conditions of stabilizability have been obtained. It has been proved that it is possible to diminish exponentially the epidemic process, in the whole habitat, just by reducing the concentration of the pollutant in a nonempty and sufficiently large subset of the spatial domain. The stabilizability with a feedback control of harvesting type is related to the magnitude of the principal eigenvalue of a certain operator. The problem of finding the optimal position (by translation) of the support of the feedback stabilizing control is faced, in order to minimize both the infected population and the pollutant at a certain finite time.
ISSN:1551-0018

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