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| PPPLOT Statement |
| See CAPPP1 in the SAS/QC Sample Library |
The distances between two holes cut into 50 steel sheets are measured and saved as values of the variable DISTANCE in the following data set:*
data sheets;
input distance @@;
label distance='Distance in cm';
datalines;
9.80 10.20 10.27 9.70 9.76
10.11 10.24 10.20 10.24 9.63
9.99 9.78 10.10 10.21 10.00
9.96 9.79 10.08 9.79 10.06
10.10 9.95 9.84 10.11 9.93
10.56 10.47 9.42 10.44 10.16
10.11 10.36 9.94 9.77 9.36
9.89 9.62 10.05 9.72 9.82
9.99 10.16 10.58 10.70 9.54
10.31 10.07 10.33 9.98 10.15
;
The cutting process is in statistical control.
As a preliminary step in a capability analysis of the
process, it is decided to check whether
the distances are normally distributed.
The following statements create a P-P plot, shown in
Figure 8.1, which is based on the normal distribution
with mean 
and standard deviation 
:
title 'Normal Probability-Probability Plot for Hole Distance';
proc capability data=sheets noprint;
ppplot distance / normal(mu=10 sigma=0.3 color=yellow)
square
cframe = ligr;
run;
The NORMAL option in the PPPLOT statement
requests a P-P plot based on the normal cumulative distribution
function, and the MU= and SIGMA= normal-options specify
and 
. Note that a P-P plot is always based
on a completely specified distribution, in other
words, a distribution with specific parameters.
In this example, if you did not specify the MU= and SIGMA=
normal-options,
the sample mean and sample standard deviation would be
used for and .
|
The linearity of the pattern in Figure 8.1 is evidence that the measurements are normally distributed with mean 10 and standard deviation 0.3. The COLOR= normal-option specifies the color for the diagonal reference line, and the SQUARE option displays the plot in a square format.
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