Robust detection of exotic infectious diseases in animal herds: A comparative study of three decision methodologies under severe uncertainty |
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| Authors: | Matthias CM Troffaes John Paul Gosling |
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| Institution: | 1. Durham University, Dept. of Mathematical Sciences, Science Laboratories, South Road, Durham DH1 3LE, United Kingdom;2. University of Leeds, School of Mathematics, Leeds LS2 9JT, United Kingdom;1. Durham, frank.coolen@durham.ac.uk;2. Innsbruck, thomas.fetz@uibk.ac.at;3. Granada, smc@decsai.ugr.es;4. Innsbruck, michael.oberguggenberger@uibk.ac.at |
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| Abstract: | When animals are transported and pass through customs, some of them may have dangerous infectious diseases. Typically, due to the cost of testing, not all animals are tested: a reasonable selection must be made. How to test effectively whilst avoiding costly disease outbreaks? First, we extend a model proposed in the literature for the detection of invasive species to suit our purpose, and we discuss the main sources of model uncertainty, many of which are hard to quantify. Secondly, we explore and compare three decision methodologies on the problem at hand, namely, Bayesian statistics, info-gap theory and imprecise probability theory, all of which are designed to handle severe uncertainty. We show that, under rather general conditions, every info-gap solution is maximal with respect to a suitably chosen imprecise probability model, and that therefore, perhaps surprisingly, the set of maximal options can be inferred at least partly—and sometimes entirely—from an info-gap analysis. |
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