A vaccination strategy based on linearization control techniques for fighting against epidemic diseases propagation

Santiago Alonso-Quesada; Manuel De La Sen; Asier Ibeas; Raúl Nistal

doi:10.1186/1687-1847-2013-364

A vaccination strategy based on linearization control techniques for fighting against epidemic diseases propagation

Santiago Alonso-Quesada, Manuel De La Sen, Asier Ibeas, Raúl Nistal

Departamento de Telecomunicación e Ingeniería de Sistemas

Producción científica: Contribución a una revista › Artículo › Investigación › revisión exhaustiva

8 Citas (Scopus)

Resumen

This paper presents a vaccination strategy for fighting against the propagation of epidemic diseases. The disease propagation is described by a SIRS (susceptible plus infected plus recovered populations) epidemic model. The model takes into account that the recovered individuals lose the disease immunity after a finite time period. A control technique based on a model linearization approach is used to design the vaccination strategy in order to eradicate the infection from the population. Moreover, the controlled system is guaranteed to be positive and stable under such a vaccination control strategy. A simulation example illustrates the theoretical results relative to the stability and positivity of the controlled system while guaranteeing the eradication of the epidemics. ©2013 Alonso-Quesada et al.; licensee Springer.

Idioma original	Inglés
Número de artículo	364
Publicación	Advances in Difference Equations
Volumen	2013
DOI	https://doi.org/10.1186/1687-1847-2013-364
Estado	Publicada - 1 dic 2013

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title = "A vaccination strategy based on linearization control techniques for fighting against epidemic diseases propagation",

abstract = "This paper presents a vaccination strategy for fighting against the propagation of epidemic diseases. The disease propagation is described by a SIRS (susceptible plus infected plus recovered populations) epidemic model. The model takes into account that the recovered individuals lose the disease immunity after a finite time period. A control technique based on a model linearization approach is used to design the vaccination strategy in order to eradicate the infection from the population. Moreover, the controlled system is guaranteed to be positive and stable under such a vaccination control strategy. A simulation example illustrates the theoretical results relative to the stability and positivity of the controlled system while guaranteeing the eradication of the epidemics. {\textcopyright}2013 Alonso-Quesada et al.; licensee Springer.",

keywords = "Nonlinear control, Positivity, SIRS epidemic models, Stability, Vaccination",

author = "Santiago Alonso-Quesada and \{De La Sen\}, Manuel and Asier Ibeas and Ra{\'u}l Nistal",

year = "2013",

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doi = "10.1186/1687-1847-2013-364",

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TY - JOUR

T1 - A vaccination strategy based on linearization control techniques for fighting against epidemic diseases propagation

AU - Alonso-Quesada, Santiago

AU - De La Sen, Manuel

AU - Ibeas, Asier

AU - Nistal, Raúl

PY - 2013/12/1

Y1 - 2013/12/1

N2 - This paper presents a vaccination strategy for fighting against the propagation of epidemic diseases. The disease propagation is described by a SIRS (susceptible plus infected plus recovered populations) epidemic model. The model takes into account that the recovered individuals lose the disease immunity after a finite time period. A control technique based on a model linearization approach is used to design the vaccination strategy in order to eradicate the infection from the population. Moreover, the controlled system is guaranteed to be positive and stable under such a vaccination control strategy. A simulation example illustrates the theoretical results relative to the stability and positivity of the controlled system while guaranteeing the eradication of the epidemics. ©2013 Alonso-Quesada et al.; licensee Springer.

AB - This paper presents a vaccination strategy for fighting against the propagation of epidemic diseases. The disease propagation is described by a SIRS (susceptible plus infected plus recovered populations) epidemic model. The model takes into account that the recovered individuals lose the disease immunity after a finite time period. A control technique based on a model linearization approach is used to design the vaccination strategy in order to eradicate the infection from the population. Moreover, the controlled system is guaranteed to be positive and stable under such a vaccination control strategy. A simulation example illustrates the theoretical results relative to the stability and positivity of the controlled system while guaranteeing the eradication of the epidemics. ©2013 Alonso-Quesada et al.; licensee Springer.

KW - Nonlinear control

KW - Positivity

KW - SIRS epidemic models

KW - Stability

KW - Vaccination

UR - https://www.scopus.com/pages/publications/84897903687

U2 - 10.1186/1687-1847-2013-364

DO - 10.1186/1687-1847-2013-364

M3 - Article

SN - 1687-1839

VL - 2013

JO - Advances in Difference Equations

JF - Advances in Difference Equations

M1 - 364

ER -

A vaccination strategy based on linearization control techniques for fighting against epidemic diseases propagation

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