Vaccination strategies based on feedback control techniques for a general SEIR-epidemic model
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Publication:426442
DOI10.1016/j.amc.2011.09.036zbMath1238.92030OpenAlexW1992322293WikidataQ57675209 ScholiaQ57675209MaRDI QIDQ426442
Manuel de la Sen, Santiago Alonso-Quesada
Publication date: 11 June 2012
Published in: Applied Mathematics and Computation (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.amc.2011.09.036
Epidemiology (92D30) Feedback control (93B52) Medical epidemiology (92C60) Stabilization of solutions to ordinary differential equations (34H15)
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Cites Work
- Unnamed Item
- The explicit series solution of SIR and SIS epidemic models
- Analysis of a saturation incidence SVEIRS epidemic model with pulse and two time delays
- Dynamic behavior for a nonautonomous SIRS epidemic model with distributed delays
- A control theory point of view on Beverton-Holt equation in population dynamics and some of its generalizations
- A short proof of the Cushing-Henson conjecture
- Model-matching-based control of the Beverton-Holt equation in ecology
- The generalized Beverton-Holt equation and the control of populations
- Control issues for the Beverton-Holt equation in ecology by locally monitoring the environment carrying capacity: non-adaptive and adaptive cases
- Reconstruction of the seasonally varying contact rate for measles
- On a generalized max-type difference equation from automatic control theory
- Analytical approximate solution of a SIR epidemic model with constant vaccination strategy by homotopy perturbation method
- Existence of epidemic waves in a disease transmission model with two-habitat population
- Solutions to the problem of prey and predator and the epidemic model via differential transform method
- Fuzzy gradual rules in epidemiology
- Positive 1D and 2D systems
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