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I have decomposed my image using svd and modified the singular values by adding matrix, let's say A. How can I get back this matrix A.

For example:

 m=[1 2 3; 4 5 6; 7 8 9];
 [u s v]= svd(m);
 A=[0 2 1; 3 5 6; 8 9 4];
 sw= s+A;
 new= u*sw*v;

Now how can I get back my matrix A from matrix new?

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To reconstruct A from its SVD given by u, s, v you would use

m_rec = u*s*v';

So in your case just replace s by sw:

m_rec = u*sw*v';

That is, you're only missing a conjugate transpose (') in your matrix new.

However, the modification you apply to s seems to be too large, and it's not even diagonal, so you are not going to reconstruct m properly. You would if the modification were small. For example:

>> sw = s + diag(.1*randn(1,3));
>> m_rec = u*sw*v'
m_rec =
    0.9987    1.9977    3.0348
    4.0070    5.0543    6.0256
    7.0533    8.0348    9.0543
share|improve this answer
    
Thank you Luis Mendo, for your kind reply, Actually i want to get matrix "A", from the matrix "new". – user3327980 Feb 21 '14 at 11:34
    
@user3327980 In your matrix "new" you need to replace v by v'. – Luis Mendo Feb 21 '14 at 11:42
    
okay new=uswv'; Now how can i get matrix A..? kindly reread my example.. m=[1 2 3; 4 5 6; 7 8 9]; [u s v]= svd(m); A=[0 2 1; 3 5 6; 8 9 4]; sw= s+A; new= uswv'; Now I want to get matrix "A" from matrix "new"... Is thr any way kindly help me out – user3327980 Feb 24 '14 at 6:45

There is a misunderstanding afoot. The matrix of singular values for a matrix of rank rho has the properties (1) it is diagonal like and (2) the singular values are ordered such that s1 >= s2 >= s3 >= ... srho > 0. The matrix addition you describe violates both principles.

To amplify, if you perturb the matrix of singular values you must not include off-diagonal entries and you must preserve Archimedean ordering. When the matrix A in line three is added to the matrix s the resultant matrix is not a matrix of singular values.

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