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KMID : 1039220220320010021
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Journal of Korean Society of Occupational and Environmental Hygiene
2022 Volume.32 No. 1 p.21 ~ p.30
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A Comparison of Analysis Methods for Work Environment Measurement Databases Including Left-censored Data
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Park Ju-Hyun
Choi Sang-Jun
Koh Dong-Hee
Park Dong-Uk
Sung Ye-Ji
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Abstract
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Objectives: The purpose of this study is to suggest an optimal method by comparing the analysis methods of work environment measurement datasets including left-censored data where one or more measurements are below the limit of detection (LOD).
Methods: A computer program was used to generate left-censored datasets for various combinations of censoring rate (1% to 90%) and sample size (30 to 300). For the analysis of the censored data, the simple substitution method (LOD/2), ¥â-substitution method, maximum likelihood estimation (MLE) method, Bayesian method, and regression on order statistics (ROS)were all compared. Each method was used to estimate four parameters of the log-normal distribution: (1) geometric mean (GM), (2) geometric standard deviation (GSD), (3) 95th percentile (X95), and (4) arithmetic mean (AM) for the censored dataset. The performance of each method was evaluated using relative bias and relative root mean squared error (rMSE).
Results: In the case of the largest sample size (n=300), when the censoring rate was less than 40%, the relative bias and rMSE were small for all five methods. When the censoring rate was large (70%, 90%), the simple substitution method was inappropriate because the relative bias was the largest, regardless of the sample size. When the sample size was small and the censoring rate was large, the Bayesian method, the ¥â-substitution method, and the MLE method showed the smallest relative bias.
Conclusions: The accuracy and precision of all methods tended to increase as the sample size was larger and the censoring rate was smaller. The simple substitution method was inappropriate when the censoring rate was high, and the ¥â-substitution method, MLE method, and Bayesian method can be widely applied.
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KEYWORD
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Left-censored data, limit of detection, maximum likelihood estimation, ¥â-substitution
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