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I have performed block SVD decomposition over image and I stored results. Now, I need to make reconstruction from this results. I found few examples all written in Matlab, which is a mystery for me. I only need formula from which I can reconstruct my picture, or example written in C language. Matrix A is equal U*S*V'. How will look formula, e.g. for calculating first five singular values (product of which rows and columns)? Please provide formula with indexes in C like style. U and V' are matrices and S is vector (not matrix).

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2 Answers 2

Not sure if I get your question right, but if you just need to know singular values, they are the diagonal values of the middle matrix S. S in general is a diagonal matrix, which is stored here as a vector. I mean, only the diagonal is stored, you should imagine it as a matrix if you're thinking in matrix calculations.

Those diagonal values are your singular values, if you need the first biggest singular values, just take the 5 biggest values of the vector S.

Quoting from Wikipedia:

The diagonal entries Σi,i of Σ are known as the singular values of M. The m columns of U and the n columns of V are called the left-singular vectors and right-singular vectors of M, respectively.

In the above quote, sigma is your S, and M is the original matrix.

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You have asked for C code, yet my hope is that pseudocode will suffice (it's late, I'm tired). The target matrix A has m rows, c columns and rank rho. The variable p = min(m,n).

One strategy is to first form the the intermediate matrix product B = US. This is trivial due to the diagonal-like nature of the matrix of singular values. Assume you have rho ( = 5 ) singular values. You must enforce rho <= p.

Replace column vector u1 with s1u1.

Replace column vector u2 with s2u2. ...

Replace column vector urho with srhourho.

Replace column vector urho+1 with a zero vector of length m.

Replace column vector urho+2 with a zero vector of length m.

...

Replace column vector up with a zero vector of length m.

Next form the new image matrix A = BVT. The matrix element in row r and column c is the dot product of the rth row vector (length rho) of B with the cth column vector (length rho) of VT.

Another strategy is to jump to the form where the matrix elements of A in row r and column c are

ar,c = sum ( skur,kvc,k, { k, 1, rho } )

The row counter r runs from 1 to m; the column counter c runs from 1 to n.

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