The article focuses on characterizing matrices that satisfy the reverse order law for the Moore-Penrose pseudoinverse, i.e., (AB)+ = B+A+. The key highlights and insights are:
The authors provide a sufficient condition (Theorem 3.1) and a related necessary condition (Theorem 5.2) that allow for the explicit construction of all matrices B satisfying the reverse order law for a fixed matrix A.
The construction is done in terms of the singular value decompositions (SVDs) of matrices A and B. Specifically, the condition involves the right singular vectors of A and the left singular vectors of B.
The authors show that the reverse order law holds if and only if the column spaces of A* and B are related in a specific way, as described by the equivalent conditions in Theorem 1.2.
The authors also provide a geometric interpretation of the conditions for the reverse order law in terms of the principal angles between the column spaces of A* and B (Theorem 8.2).
The authors establish the similarity between the equivalent conditions for B+A+ being an {1, 2}-inverse of AB and being an {1, 2, 3, 4}-inverse of AB (Tables 1 and 2).
The authors parameterize all possible SVD decompositions of a fixed matrix and give Greville-like equivalent conditions for B+A+ being a {1, 2}-inverse of AB with a geometric insight in terms of the principal angles between the column spaces of A* and B.
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by Oska... klokken arxiv.org 04-04-2024
https://arxiv.org/pdf/2404.02843.pdfDypere Spørsmål