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Cost Function Approach for Dynamical Component Analysis: Full Recovery of Mixing and State Matrix
Abstract
A reformulation of the dynamical component analysis (DyCA) via an
optimization-free approach is presented. The original cost function
approach is converted into a numerical linear algebra problem, i.e., the
computation of coupled singular-value decompositions. A simple
algorithm is presented together with numerical experiments to document
the feasability of the approach. This methodology is able to recover the
mixing and state matrices of multivariate signals from high-dimensional
measured data fully.
Mehr zum Titel
| Titel | Cost Function Approach for Dynamical Component Analysis: Full Recovery of Mixing and State Matrix |
|---|---|
| Medien | Automation |
| Heft | 3 |
| Band | 5 |
| Verfasser | Prof. Dr. Knut Hüper, Markus Schlarb, Prof. Dr. Christian Uhl |
| Seiten | 360-372 |
| Veröffentlichungsdatum | 01.08.2024 |
| Projekttitel | DyCA |
| Zitation | Hüper, Knut; Schlarb, Markus; Uhl, Christian (2024): Cost Function Approach for Dynamical Component Analysis: Full Recovery of Mixing and State Matrix. Automation 5 (3), 360-372. DOI: 10.3390/automation5030022 |