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 PROC CAPABILITY and General Statements

## Robust Estimators

The CAPABILITY procedure provides several methods for computing robust estimates of location and scale, which are insensitive to outliers in the data.

### Winsorized Means

The k-times Winsorized mean is a robust estimator of location which is computed as
where n is the number of observations, and x(i) is the ith order statistic when the observations are arranged in increasing order:

The Winsorized mean is the mean computed after replacing the k smallest observations with the (k+1)st smallest observation, and the k largest observations with the (k+1)st largest observation.

For data from a symmetric distribution, the Winsorized mean is an unbiased estimate of the population mean. However, the Winsorized mean does not have a normal distribution even if the data are normally distributed.

The Winsorized sum of squared deviations is defined as

A Winsorized t test is given by

where the standard error of the Winsorized mean is
When the data are from a symmetric distribution, the distribution of twk is approximated by a Student's t distribution with n-2k-1 degrees of freedom. Refer to Tukey and McLaughlin (1963) and Dixon and Tukey (1968).

A % Winsorized confidence interval for the mean has upper and lower limits

where is the th percentile of the Student's t distribution with n-2k-1 degrees of freedom.

### Trimmed Means

The k-times trimmed mean is a robust estimator of location which is computed as
where n is the number of observations, and x(i) is the ith order statistic when the observations are arranged in increasing order:

The trimmed mean is the mean computed after the k smallest observations and the k largest observations in the sample are deleted.

For data from a symmetric distribution, the trimmed mean is an unbiased estimate of the population mean. However, the trimmed mean does not have a normal distribution even if the data are normally distributed.

A robust estimate of the variance of the trimmed mean ttk can be obtained from the Winsorized sum of squared deviations; refer to Tukey and McLaughlin (1963). the corresponding trimmed t test is given by

where the standard error of the trimmed mean is
and swk is the square root of the Winsorized sum of squared deviations.

When the data are from a symmetric distribution, the distribution of ttk is approximated by a Student's t distribution with n-2k-1 degrees of freedom. Refer to Tukey and McLaughlin (1963) and Dixon and Tukey (1968).

A % trimmed confidence interval for the mean has upper and lower limits

where is the th percentile of the Student's t distribution with n-2k-1 degrees of freedom.

### Robust Estimates of Scale

The sample standard deviation, which is the most commonly used estimator of scale, is sensitive to outliers. Robust scale estimators, on the other hand, remain bounded when a single data value is replaced by an arbitrarily large or small value. The CAPABILITY procedure computes several robust measures of scale, including the interquartile range Gini's mean difference G, the median absolute eviation about the median (MAD), Qn, and Sn. In addition, the procedure computes estimates of the normal standard deviation derived from each of these measures.

The interquartile range (IQR) is simply the difference between the upper and lower quartiles. For a normal population, can be estimated as IQR/1.34898.

Gini's mean difference is computed as

For a normal population, the expected value of G is .Thus is a robust estimator of when the data are from a normal sample. For the normal distribution, this estimator has high efficiency relative to the usual sample standard deviation, and it is also less sensitive to the presence of outliers.

A very robust scale estimator is the MAD, the median absolute deviation from the median (Hampel, 1974), which is computed as

where the inner median, medj(xj), is the median of the n observations, and the outer median (taken over i) is the median of the n absolute values of the deviations about the inner median. For a normal population, 1.4826MAD is an estimator of .

The MAD has low efficiency for normal distributions, and it may not always be appropriate for symmetric distributions. Rousseeuw and Croux (1993) proposed two statistics as alternatives to the MAD. The first is

where the outer median (taken over i) is the median of the n medians of |xi - xj|, j = 1, 2, ... , n. To reduce small-sample bias, csnSn is used to estimate ,where csn is a correction factor; refer to Croux and Rousseeuw (1992).

The second statistic is

where
and h = [n/2] + 1. In other words, Qn is 2.219 times the kth order staitistic of the distances between the data points. The bias-corrected statistic cqnQn is used to estimate ,where cqn is a correction factor; refer to Croux and Rousseeuw (1992).

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