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I am doing SVD in R on a data frame called data

svd1 <- svd(scale(data))

I plot the result using

plot(svd1$d^2/sum(svd1$d^2),xlab="Column",ylab="Percent of variance explained",pch=19)

I found out that in the plot, column number do not corespond to the column numbers in the data frame (no matter what subset of columns I use with SVD, the first column always shows the highes variance).

My question is, how do I get the column names (or "real" indices) in the plot?

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Without a reproducible example or at least an exhausting summary, this will likely be doomed as too localized. – Roman Luštrik Feb 10 '13 at 16:44
you can use any data frame you like to reporduce it. The question is how to "map" the columns of the data frame used to the output column numbers – Igor Kulman Feb 10 '13 at 16:51
I don't think you can do what you want. The singular values (from Lapack dgesvd at least) are sorted so that S(i) >= S(i+1). Lapack gives no correspondence between output and input columns. I don't think it's even possible. – Bhas Feb 10 '13 at 20:00
Actually, SVD explicitly gives the mappings between the original matrix and the diagonal matrix D. These mappings are linear transformations, and are typically called U and V*. – Matthew Lundberg Feb 10 '13 at 20:11
up vote 3 down vote accepted

According to the R documentation (.../library/base/html/svd.html):

d is a vector containing the singular values of x, of length min(n, p).

These singular values are computed by the SVD algorithm from the whole input matrix, so there is no way to label the singular values based on the column names.

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so there is no way to know which of the variables is the most significat one and you only know how significat it is? – Igor Kulman Feb 10 '13 at 20:03
@IgorKulman: There is a way to determine which of the variables has most influence on each of the values of d. Given that X = U D V*, where D is a matrix containing only the singular values d along its diagonal and V* is the transpose of V, one can examine the linear transformation to determine this -- as advised by @Matthew Lundberg in his comment on the question. In some cases it may be that a given singular value has only a few important contributors from among the variables, which might enable some useful labelling for those cases, but that wouldn't be true in the general case. – Simon Feb 10 '13 at 21:44

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