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I'm attempting to create a Multitrait-Multimethod Matrix using R for validity purposes (I will also use CFA so that's not the answer to this question). How can I use R to create an MTMM similar to this:

enter image description here

I've looked at the MTMM function in psy package. If this is what I want it appears to be in a very unfamiliar form (not at all like the image above). I provided some fake data to help:

set.seed(100)
x <- data.frame(matrix(sample(1:5, 270, replace=T), 10, 27))
names(x) <- paste(rep(c("A", "B", "C"), each=9), rep(c(1:9), 3), sep="")
x

Coding for the column names:

  • A, B, C are the 3 methods
  • 1-3 are trait 1
  • 4-6 are trait 2
  • 7-9 are trait 3

I'm guessing this is easier than I'm making it out to be but I just couldn't find a way. Thank you in advance for your help.

share|improve this question
    
A general logic might be to use Methods as panels, traits as categorical axis, and then color the cells in the correlation matrix according to the correlation coefficient (see this answer on the stats site for an example). It would be easier to help if you actually reproduced your correlation matrix. For the love of god please don't use that color scheme in the picture you included! – Andy W Mar 9 '12 at 12:52
    
It was brought to my attention by Andy that the picture above is misleading. I don't really want to output to be in nice graphic form, just that the output is correct numerically speaking. It can be ugly (and is actually preferred right now). – Tyler Rinker Mar 11 '12 at 18:00
up vote 0 down vote accepted

This is an attempt to make an MTMM in R using friend's advice from talkstats.com. I don't know if it's correct because I don't have a test (benchmark) data set to use it on with a known to be correct MTMM. Please critique. Is this an MTMM or just a random matrix with reliability in the diagonals?

Just remember that dim is the method and r is the construct on the column and row names.

require(CTT); require(foreign)

dat22 <-read.csv(url("http://dl.dropbox.com/u/61803503/dat.csv"), header=TRUE, 
           strip.white = TRUE, sep=",", as.is=FALSE, na.strings= c("999", "NA", " "))

#group items by method(dim) and construct(r)
dim1r1 <- dat2[, c(3, 5, 9, 10)]
dim2r1 <- dat2[, c(4, 13:15)]
dim3r1 <- dat2[, c(1, 6, 7, 11, 12)]
dim4r1 <- dat2[, c(2, 8, 16, 17)]

dim1r2 <- dat2[, c(3, 5, 9, 10)+17]
dim2r2 <- dat2[, c(4, 13:15)+17]
dim3r2 <- dat2[, c(1, 6, 7, 11, 12)+17]
dim4r2 <- dat2[, c(2, 8, 16, 17)+17]

dim1r3 <- dat2[, c(3, 5, 9, 10)+17*2]
dim2r3 <- dat2[, c(4, 13:15)+17*2]
dim3r3 <- dat2[, c(1, 6, 7, 11, 12)+17*2]
dim4r3 <- dat2[, c(2, 8, 16, 17)+17*2]

dim1r4 <- dat2[, c(3, 5, 9, 10)+17*3]
dim2r4 <- dat2[, c(4, 13:15)+17*3]
dim3r4 <- dat2[, c(1, 6, 7, 11, 12)+17*3]
dim4r4 <- dat2[, c(2, 8, 16, 17)+17*3]

#make a list from the above items 
#dim1r1 means methid 1 (dim1) and construct 1(r1)
LIST2 <- list(dim1r1, dim1r2, dim1r3, dim1r4, dim2r1, dim2r2, dim2r3, dim2r4, 
             dim3r1, dim3r2, dim3r3, dim3r4, dim4r1, dim4r2, dim4r3, dim4r4)

#get the sums of the items by method and construct 
#and generate correlation amtrix (all in 1 step)
mtmm <- round(cor(sapply(LIST2, function(x) rowSums(x))), digits=3)
#generate and order row and column names
VN <- expand.grid(paste('dim', 1:4, sep=""), paste('r', 1:4, sep="")) 
VN <- VN[order(VN$Var1, VN$Var2), ]
varNames <- paste(VN[, 1], VN[, 2], sep="")
rownames(mtmm) <- colnames(mtmm) <-varNames

#blank out the upper triangle
mtmm[upper.tri(mtmm)] <- " "
#add cronbach's alpha intot he diagonal
diag(mtmm) <- sapply(LIST2, function(x) round(reliability(x)$alpha, digits=3))
noquote(mtmm)

That produces:

       dim1r1 dim1r2 dim1r3 dim1r4 dim2r1 dim2r2 dim2r3 dim2r4 dim3r1 dim3r2 dim3r3 dim3r4 dim4r1 dim4r2 dim4r3 dim4r4
dim1r1 0.737                                                                                                          
dim1r2 0.82   0.78                                                                                                    
dim1r3 0.825  0.755  0.735                                                                                            
dim1r4 0.828  0.783  0.812  0.791                                                                                     
dim2r1 0.415  0.496  0.484  0.495  0.801                                                                              
dim2r2 0.432  0.615  0.493  0.479  0.818  0.886                                                                       
dim2r3 0.425  0.473  0.505  0.459  0.89   0.831  0.843                                                                
dim2r4 0.355  0.468  0.413  0.482  0.806  0.826  0.837  0.802                                                         
dim3r1 0.544  0.518  0.413  0.494  0.281  0.226  0.184  0.233  0.778                                                  
dim3r2 0.517  0.585  0.399  0.461  0.306  0.324  0.26   0.293  0.88   0.782                                           
dim3r3 0.491  0.489  0.392  0.421  0.258  0.229  0.232  0.221  0.875  0.912  0.804                                    
dim3r4 0.487  0.492  0.366  0.475  0.269  0.268  0.209  0.274  0.887  0.89   0.859  0.77                              
dim4r1 0.341  0.399  0.38   0.357  0.387  0.398  0.355  0.375  0.397  0.417  0.387  0.43   0.489                      
dim4r2 0.274  0.433  0.326  0.323  0.462  0.535  0.416  0.46   0.343  0.422  0.349  0.432  0.863  0.517               
dim4r3 0.268  0.368  0.364  0.306  0.329  0.417  0.333  0.341  0.293  0.376  0.34   0.353  0.863  0.856  0.545        
dim4r4 0.301  0.403  0.347  0.395  0.377  0.443  0.371  0.483  0.372  0.441  0.345  0.441  0.86   0.84   0.83   0.52

which could be cleaned up and made pretty using ggplot or an external program like Excel etc.

share|improve this answer
    
I don't think that this is what MTMM is, see this page by David Kenny on the subject, davidakenny.net/cm/mtmm.htm. – Andy W Mar 11 '12 at 18:15

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