A multiobjective optimization approach for combating \textit{Aedes aegypti} using chemical and biological alternated step-size control

DOI10.1016/j.mbs.2015.08.019zbMath1351.92049OpenAlexW1875113907WikidataQ40139764 ScholiaQ40139764MaRDI QIDQ900718

Weverton O. Dias, Rodrigo T. N. Cardoso, Elizabeth F. Wanner

Publication date: 22 December 2015

Published in: Mathematical Biosciences (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1016/j.mbs.2015.08.019

zbMATH Keywords

genetic algorithms multiobjective optimization \textit{Aedes aegypti} model Dengue vector control

Mathematics Subject Classification ID

Epidemiology (92D30) Environmental economics (natural resource models, harvesting, pollution, etc.) (91B76)

Related Items (5)

Control strategies for a population dynamics model of \textit{Aedes aegypti} with seasonal variability and their effects on dengue incidence ⋮ Bifurcation thresholds and optimal control in transmission dynamics of arboviral diseases ⋮ Fractional dynamics of the transmission phenomena of dengue infection with vaccination ⋮ Pest Control of Jatropha curcas Plant for Different Response Functions ⋮ Optimization of a rainfall dependent model for the seasonal \textit{Aedes aegypti} integrated control: a case of Lavras/Brazil

Cites Work

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