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I've conducted a psychometric test on some subjects, and I'm trying to create a multivariate probit model.

The test was conducted as follows:

To subject 1 was given a certain stimulous under 11 different conditions, 10 times for each condition. Answers (correct=1, uncorrect=0) were registered. So for subject 1, I have the following results' table:

# Subj 1
cnt    1  0

  1    0 10
  2    0 10
  3    1  9
  4    5  5
  5    7  3
  6   10  0
  7   10  0
  8   10  0
  9    9  1
  10  10  0
  11  10  0

This means that Subj1 answered uncorrectly 10 times under condition 1 and 2, and answered 10 times correctly under condition 10 and 11. For the other conditions, the response was increasing from condition 3 to condition 9. I hope I was clear.

I usually analyze the data using the following code:

prob.glm <- glm(resp.mat1 ~ cnt, family = binomial(link = "probit"))

Here resp.mat1 is the responses' table, while cnt is the contrast c(1,11). So I'm able to draw the sigmoid curve using the predict() function. The graph, for the subject-1 is the following.

enter image description here

Now suppose I've conducted the same test on 20 subjects. I have now 20 tables, organized like the first one.

What I want to do is to compare subgroups, for example: male vs. female; young vs. older and so on. But I want to keep the inter-individual variability, so simply "adding" the 20 tables will be wrong.

How can I organize the data in order to use the glm() function?

I want to be able to write a command like:

prob.glm <- glm(resp.matTOT ~ cnt + sex, family = binomial(link = "probit"))

And then graphing the curve for sex=M, and sex=F.

I tried using the rbind() function, to create a unique table, then adding columns for Subj (1 to 20), Sex, Age. But it looks me a bad solution, so any alternative solutions will be really appreciated.

Thanks in advance!

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2 Answers 2

Looks like you are using the wrong function for the job. Check the first example of glmer in package lme4; it comes quite close to what you want. herd should be replaced by the subject number, but make sure that you do something like

mydata$subject = as.factor(mydata$subject)

when you have numerical subject numbers.

# Stolen from lme4
xyplot(incidence/size ~ period|herd, cbpp, type=c('g','p','l'),
       layout=c(3,5), index.cond = function(x,y)max(y))
(gm1 <- glmer(cbind(incidence, size - incidence) ~ period + (1 | herd),
              data = cbpp, family = binomial))
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There's a multivariate probit command in the mlogit library of all things. You can see an example of the data structure required here:


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