The Relation Between the EVD or SVD of Summands and the EVD or SVD of the Sum
Abstract
In this work, we show how the eigenstructures of summands are related to that of the sum. In particular, we show that the sum of two positive semidefinite matrices can be written as the inner product of two block matrices C = A + B = PD2PT + QE2QT = pmatrix PD & QE pmatrixpmatrix PD & QE pmatrixT = ZTZ, such that the eigenvector decomposition of C can be obtained by projecting the eigenvectors from the block matrix product ZZT onto the block matrix ZT = pmatrix PD & QE pmatrix. Next, it is shown that the result can be used to rewrite the SVD of a matrix inner product XTY, utilizing the eigenstructures of X and Y. Finally, it is shown how this can be generalized to express the SVD of a sum of arbitrary matrices H = F + G in terms of the SVDs of the summands. The results may be useful in algorithms for eigendecomposition, specifically if the eigenproblem can be expressed in terms of a sum of matrices with simple eigenstructures as, e.g., in multi-omics research and generalized Procrustes analysis.
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