Estimation of moments and quantiles from environmental data sets with non-detected observations
Huybrechts, T. (2003). Estimation of moments and quantiles from environmental data sets with non-detected observations, in: Huybrechts, T. Occurrence and spatial-temporal variability of priority volatile organic compounds in the southern North Sea and the Scheldt estuary = Voorkomen en ruimtelijke-tijdelijke spreiding van prioritaire vluchtige organische stoffen in de zuidelijke Noordzee en het Schelde-estuarium. pp. 47-64
In: Huybrechts, T. (2003). Occurrence and spatial-temporal variability of priority volatile organic compounds in the southern North Sea and the Scheldt estuary = Voorkomen en ruimtelijke-tijdelijke spreiding van prioritaire vluchtige organische stoffen in de zuidelijke Noordzee en het Schelde-estuarium. PhD Thesis. Universiteit Gent: Gent. VII, 169 pp., more
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Document type: Dissertation
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| Abstract |
Concentrations of 27 priority volatile organic compounds were measured in water samples of the North Sea and Scheldt estuary during a 3-year monitoring study. Despite the use of a sensitive analytical method, a number of data were censored. That is, some concentrations were below the decision limit or critical level defined by IUPAC. To characterize the observed measurement results, an attempt was made to identify an appropriate procedure to compute summary statistics for the censored data sets. Several parametric and robust parametric approaches based on the maximum likelihood principle and probability-plot regression method were evaluated for the estimation of the mean, standard deviation, median and interquartile range using three uncensored analytes (1,1,2-trichloroethane, tetrachloroethene and o-xylene) from the monitoring survey. Performance was assessed by artificially censoring the observed concentrations and estimating moments and quantiles at each censoring level. Results showed that methods with the least distributional assumptions, such as the robust bias-corrected restricted maximum likelihood method, perform best for estimating the mean and standard deviation, while both parametric and robust parametric techniques can be used for quantiles. Hence, summary statistics could be estimated with little bias (5-10%) up to 80% of censoring for the data sets employed in this study. |
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