Adjusted Bonett Confidence Interval for Standard Deviation of Non-normal Distributions

Sa-aat Niwitpong; Pianpool Kirdwichai

Authors

Sa-aat Niwitpong Department of Applied Statistics, Faculty of Applied Science, King Mongkut’s Institute of Technology North Bangkok, Bangkok 10800, Thailand.
Pianpool Kirdwichai Department of Applied Statistics, Faculty of Applied Science, King Mongkut’s Institute of Technology North Bangkok, Bangkok 10800, Thailand.

Keywords:

confidence interval, coverage probability, standard deviation

Abstract

Bonett [1] provides an approximate confidence interval for s and shows it to be nearly exact under normality and, for small samples, under moderate non-normality. This paper proposes a new method for determining the confidence interval for $\inline \dpi{100} \sigma$ . We follow the suggestion of Bonett [1] and include any prior kurtosis information. An important modification from the Bonett method is to base the interval on $\dpi{100} t_{\alpha /2}$ , the ( $\dpi{100} \alpha$ /2)100th quantile of Student T distribution, rather than on $\inline \dpi{100} Z_{\alpha /2}$ , the ( $\dpi{100} \alpha$ /2)100th quantile of standard normal distribution. Further, the use of the median as an estimate of the population mean gives a slightly higher coverage probability for the confidence interval for $\inline \dpi{100} \sigma$ when data are from skewed leptokurtic distributions. Monte Carlo Simulation results for selected normal and non-normal distributions show that the confidence intervals obtained from the new method have appreciably higher coverage probabilities than the confidence intervals from the original Bonett method that does not use prior kurtosis information, and also higher coverage probabilities than the Bonett method that does use prior kurtosis information.

Adjusted Bonett Confidence Interval for Standard Deviation of Non-normal Distributions

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