Mathematics – Optimization and Control
Scientific paper
2010-05-26
Mathematics
Optimization and Control
29 pages, 8 figures, submitted
Scientific paper
We introduce a generalized Rayleigh-quotient on the tensor product of Grassmannians enabling a unified approach to well-known optimization tasks from different areas of numerical linear algebra, such as best low-rank approximations of tensors (data compression), geometric measures of entanglement (quantum computing) and subspace clustering (image processing). We briefly discuss the geometry of the constraint set, we compute the Riemannian gradient of the generalized Rayleigh-quotient, we characterize its critical points and prove that they are generically non-degenerated. Moreover, we derive an explicit necessary condition for the non-degeneracy of the Hessian. Finally, we present two intrinsic methods for optimizing the generalized Rayleigh-quotient - a Newton-like and a conjugated gradient - and compare our algorithms tailored to the above-mentioned applications with established ones from the literature.
Curtef O.
Dirr Gunther
Helmke Uwe
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