Note: See X-Bar and s Charts with Probability Limits in the SAS/QC Sample Library.
This example illustrates how to create and s charts with probability limits. The following statements read the kilowatt power output measurements from the data set Turbine
(see Creating Charts for Means and Standard Deviations from Raw Data) and create the and s charts shown in Output 17.41.1:
ods graphics off; symbol v=dot h=.8; title 'Mean and Standard Deviation Charts With Probability Limits'; proc shewhart data=Turbine; xschart KWatts*Day / alpha = 0.01 outlimits = Oillim; run;
The ALPHA= option specifies the probability () that a subgroup summary statistic is outside the limits. Here, the limits are computed so that the probability that a subgroup mean or standard deviation is less than its lower limit is , and the probability that a subgroup mean or standard deviation is greater than its upper limit is . This assumes that the measurements are normally distributed.
The OUTLIMITS= option names an output data set (Oillim
) that saves the probability limits. The data set Oillim
is shown in Output 17.41.2.
Output 17.41.2: Probability Limit Information
Mean and Standard Deviation Charts with Probability Limits |
_VAR_ | _SUBGRP_ | _TYPE_ | _LIMITN_ | _ALPHA_ | _SIGMAS_ | _LCLX_ | _MEAN_ | _UCLX_ | _LCLS_ | _S_ | _UCLS_ | _STDDEV_ |
---|---|---|---|---|---|---|---|---|---|---|---|---|
KWatts | Day | ESTIMATE | 20 | 0.01 | 2.57583 | 3370.79 | 3485.41 | 3600.03 | 119.432 | 196.396 | 283.570 | 198.996 |
The variable _ALPHA_
saves the value of . The value of the variable _SIGMAS_
is computed as , where is the inverse standard normal distribution function. Note that, in this case, the probability limits for the mean are equivalent
to limits.
Since all the points fall within the probability limits, it can be concluded that the process is in statistical control.