Title :
Continuous-time algorithms for the Riemannian SVD
Author_Institution :
Dept. of Electr. Eng., Katholieke Univ., Leuven, Belgium
Abstract :
We define a nonlinear generalization of the singular value decomposition (SVD), which can be interpreted as a restricted SVD with Riemannian metrics in the column and row space. This so-called Riemannian SVD occurs in structured total least squares problems, for instance in the least squares approximation of a given matrix A by a rank deficient Hankel matrix B, which is an important problem in system identification and signal processing. Several algorithms to find the `minimizing´ singular triplet are suggested, both for the SVD and its nonlinear generalization. This paper reveals interesting connections between linear algebra (structured matrix problems), numerical analysis (algorithms), optimization theory, (differential) geometry and system theory (differential equations, stability, Lyapunov functions). We give some numerical examples and also point out some open problems
Keywords :
Hankel matrices; convergence of numerical methods; differential geometry; eigenvalues and eigenfunctions; identification; least squares approximations; optimisation; signal processing; singular value decomposition; system theory; Hankel matrix; Riemannian metrics; continuous time eigenvalues; differential geometry; least squares approximation; linear algebra; nonlinear generalization; numerical analysis; optimization; signal processing; singular triplet; singular value decomposition; structured matrix; system identification; system theory; Extraterrestrial measurements; Geometry; Least squares approximation; Linear algebra; Matrices; Matrix decomposition; Numerical analysis; Signal processing algorithms; Singular value decomposition; System identification;
Conference_Titel :
Decision and Control, 1995., Proceedings of the 34th IEEE Conference on
Conference_Location :
New Orleans, LA
Print_ISBN :
0-7803-2685-7
DOI :
10.1109/CDC.1995.480235
