Literature DB >> 21423822

Optimal control of a rabies epidemic model with a birth pulse.

Tim Clayton1, Scott Duke-Sylvester, Louis J Gross, Suzanne Lenhart, Leslie A Real.   

Abstract

A system of ordinary differential equations describes the population dynamics of a rabies epidemic in raccoons. The model accounts for the dynamics of a vaccine, including loss of vaccine due to animal consumption and loss from factors other than racoon uptake. A control method to reduce the spread of disease is introduced through temporal distribution of vaccine packets. This work incorporates the effect of the seasonal birth pulse in the racoon population and the attendant increase in new-borns which are susceptible to the diseases, analysing the impact of the timing and length of this pulse on the optimal distribution of vaccine packets. The optimization criterion is to minimize the number of infected raccoons while minimizing the cost of distributing the vaccine. Using an optimal control setting, numerical results illustrate strategies for distributing the vaccine depending on the timing of the infection outbreak with respect to the birth pulse.

Entities:  

Keywords:  optimal control; ordinary differential equations; rabies epidemic model; vaccine

Mesh:

Substances:

Year:  2010        PMID: 21423822      PMCID: PMC3060792          DOI: 10.1080/17513750902935216

Source DB:  PubMed          Journal:  J Biol Dyn        ISSN: 1751-3758            Impact factor:   2.179


  15 in total

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7.  The effect of seasonal birth pulses on pathogen persistence in wild mammal populations.

Authors:  A J Peel; J R C Pulliam; A D Luis; R K Plowright; T J O'Shea; D T S Hayman; J L N Wood; C T Webb; O Restif
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