SAS Global Forum 2014 is just around the corner and I’m getting really excited about it. There is so much content for SAS platform administrators this year. I had been thinking of posting a list of admin related papers I was keen to see, but then I saw that Greg Nelson from ThotWave wrote a […]
Example 2014.3: Allow different variances by group
One common violation of the assumptions needed for linear regression is heterscedasticity by group membership. Both SAS and R can easily accommodate this setting. Our data today comes from a real example of vitamin D supplementation of milk. Four sup…
Olympic graphs … on steroids!
Michele Ensor recently posted a wonderful blog with a graph of the 2014 Winter Olympics medal count. I’m going to further refine that graph, making it an Olympic graph … on steroids! 🙂 Here is Michele’s graph: First, let’s give it a few simple cosmetic changes. I always like to have […]
Type I error rates in test of normality by simulation
This simulation tests the type I error rates of the Shapiro-Wilk test of normality in R and SAS.
First, we run a simulation in R. Notice the simulation is vectorized: there are no “for” loops that clutter the code and slow the simulation.
# type I error
alpha <- 0.05
# number of simulations
n.simulations <- 10000
# number of observations in each simulation
n.obs <- 100
# a vector of test results
type.one.error shapiro.test(rnorm(n.obs))$p.value)<alpha
# type I error for the whole simulation
mean(type.one.error)
# Store cumulative results in data frame for plotting
sim <- data.frame(
n.simulations = 1:n.simulations,
type.one.error.rate = cumsum(type.one.error) /
seq_along(type.one.error))
# plot type I error as function of the number of simulations
plot(sim, xlab="number of simulations",
ylab="cumulative type I error rate")
# a line for the true error rate
abline(h=alpha, col="red")
# alternative plot using ggplot2
require(ggplot2)
ggplot(sim, aes(x=n.simulations, y=type.one.error.rate)) +
geom_line() +
xlab('number of simulations') +
ylab('cumulative type I error rate') +
ggtitle('Simulation of type I error in Shapiro-Wilk test') +
geom_abline(intercept = 0.05, slope=0, col='red') +
theme_bw()
As the number of simulations increases, the type I error rate approaches alpha. Try it in R with any value of alpha and any number of observations per simulation.
It’s elegant the whole simulation can be condensed to 60 characters:
mean(replicate(10000,shapiro.test(rnorm(100))$p.value)<0.05)
Likewise, we now do a similar simulation of the Shapiro-Wilk test in SAS. Notice there are no macro loops: the simulation is simpler and faster using a BY statement.
data normal;
length simulation 4 i 3; /* save space and time */
do simulation = 1 to 10000;
do i = 1 to 100;
x = rand('normal');
output;
end;
end;
run;
proc univariate data=normal noprint ;
by simulation;
var x;
output out=univariate n=n mean=mean std=std NormalTest=NormalTest probn=probn;
run;
data univariate;
set univariate;
type_one_error = probnrun;
/* Summarize the type I error rates for this simulation */
proc freq data=univariate;
table type_one_error/nocum;
run;
In my SAS simulation the type I error rate was 5.21%.
Tested with R 3.0.2 and SAS 9.3 on Windows 7.
For more posts like this, see Heuristic Andrew.
Applying conditional highlighting to a SAS Enterprise Guide report
Here’s my latest tip on how to apply conditional highlighting to a SAS Enterprise Guide report using the Summary Tables task. The Summary Tables task is a great way to point and click your way to creating simple or complex reports. Conditional highlighting is just one additional feature you can […]
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