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I recently read about how the R matrix of QR decomposition can be calculated using the Choleski decomposition. The relation is:

R = Choleski-decomposition(A^TA)

Example:

> A=matrix(c(1,2,3,2,3,5,1,3,2), nrow=3)
> A
     [,1] [,2] [,3]
[1,]    1    2    1
[2,]    2    3    3
[3,]    3    5    2

> AtA = t(A)%*%A
> AtA
     [,1] [,2] [,3]
[1,]   14   23   13
[2,]   23   38   21
[3,]   13   21   14

Now calculating QR and Choleski decomposition:

> chol(AtA)
         [,1]     [,2]       [,3]
[1,] 3.741657 6.147009  3.4743961
[2,] 0.000000 0.462910 -0.7715167
[3,] 0.000000 0.000000  1.1547005

> qr_A = qr(A)
> qr.R(qr_A)
          [,1]      [,2]       [,3]
[1,] -3.741657 -6.147009 -3.4743961
[2,]  0.000000  0.462910 -0.7715167
[3,]  0.000000  0.000000 -1.1547005

As observed, the values of the R matrix calculated from Choleski and QR decomposition are not the same. The first and the third rows of chol(AtA) are negated w.r.t qr.R(qr_A). Why is that? Is the relation I'm assuming not correct?

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1 Answer 1

up vote 4 down vote accepted

The QR-decomposition of a matrix is not unique! There is a QR-decomposition with R=chol(AtA), but there are also others and qr does not necessairily give that one. In your example

qr.Q(qr_A)%*%qr.R(qr_A) 

and

(qr.Q(qr_A)%*%diag(c(-1,1,-1)))%*%chol(AtA)

are both valid QR-decompositions of A.

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2  
Exactly. And for some more details, see this excellent answer, given when the exact same question was posed over on the Computational Science SO beta. –  Josh O'Brien Oct 23 '13 at 11:29
    
Great. Thanks! Are there QR decomposition implementations in R that will definitely give me a positive diagonal? –  Prateek Kulkarni Oct 23 '13 at 14:52
2  
@PrateekKulkarni -- As discussed here, the R package biglm seems to use an implementation that does what you're asking for. –  Josh O'Brien Oct 23 '13 at 16:07

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