Masters Theses
Date of Award
5-1995
Degree Type
Thesis
Degree Name
Master of Science
Major
Nuclear Engineering
Major Professor
Peter Groer
Committee Members
Larry Miller, Howard Adler
Abstract
Calibration of food irradiation (i.e. foodborne bacterial pathogen control) uses data from a calibration experiment. This data consists of pairs (xi, yi) where xi are the doses (kGy) at which the chicken meat is irradiated and y, are the corresponding bacteria populations (log CFU/g), where CFU stands for colony forming units. In order to describe the relationship between dose and population reduction the Student t-distribution is used to describe the predictive and calibrative densities:
By using Bayes theorem and incorporating a uniform prior distribution, the expression for the posterior density is obtained. Integrating the product of the likelihood of a new observation and the posterior density yields the predictive density. The predictive density acts like a new likelihood in the subsequent derivation of the calibrative density.
By incorporating a uniform prior distribution, the relationship between the calibrative and predictive density is simplified. The calibrative density describes the uncertainty of a new unknown dose xn given a specific bacteria population yn and the calibration data set z = (x, y). This type of analysis provides a quantitative description of the uncertainty about the dose. In addition, this approach allows factors such as temperature and atmosphere to be analyzed qualitatively. The effect of these factors on the resistance of Salmonella to radiation is examined. The Bayesian approach is used in the analysis of two research experiments.
Recommended Citation
Howard, Michael Edward, "Calibration of the survival of salmonella bacterium to radiation using bayesian procedures. " Master's Thesis, University of Tennessee, 1995.
https://trace.tennessee.edu/utk_gradthes/11141