In this work we deal with the factorization A = UΣV + where Σ is a diagonal matrix, while U and V are orthogonal respect to the scalar product defined by the matrix G =diag(+1,−1, . . . ,−1), (the so-called Minkowski metric). This factorization is generalized requiring U and V to be orthogonal with respect to the scalar product defined by a generic diagonal matrix G =diag(±1). This factorization is called G−SVD, while the diagonal elements of Σ are called G−singular values. An iterative algorithm for the computation of the G−singular values is proposed and its convergence is also studied.
An Algorithm for the Computation of the G-Singular Values of a Matrix / Giovanni Di, Lena; Piazza, Giuseppe; Politi, Tiziano. - In: HERMIS. - ISSN 1108-7609. - 8:(2006), pp. 61-68.
An Algorithm for the Computation of the G-Singular Values of a Matrix
PIAZZA, Giuseppe;POLITI, Tiziano
2006-01-01
Abstract
In this work we deal with the factorization A = UΣV + where Σ is a diagonal matrix, while U and V are orthogonal respect to the scalar product defined by the matrix G =diag(+1,−1, . . . ,−1), (the so-called Minkowski metric). This factorization is generalized requiring U and V to be orthogonal with respect to the scalar product defined by a generic diagonal matrix G =diag(±1). This factorization is called G−SVD, while the diagonal elements of Σ are called G−singular values. An iterative algorithm for the computation of the G−singular values is proposed and its convergence is also studied.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
