Title :
Numerical Reconstruction of the HOSVD Based Canonical Form of Polytopic Dynamic Models
Author :
Szeidl, László ; Baranyi, Péter ; Petres, Zoltán ; Várlaki, Péter
Author_Institution :
Budapest Tech., Budapest
Abstract :
The main objective of the paper is to introduce how the concept of tensor HOSVD (higher order singular value decomposition) can be carried over to the TP (tensor product) dynamic models. We term this decomposition as HOSVD based canonical form of TP model or polytopic model form. The key idea and the basic concept of this decomposition was proposed recently with the TP model transformation based control design methodology. The novelty of this paper is to present the mathematical background of this concept. The paper shows convergency theorems how the TP model transformation is capable of reconstructing this HOSVD based canonical form numerically.
Keywords :
control system synthesis; linear matrix inequalities; nonlinear dynamical systems; singular value decomposition; control design; convergency theorems; higher order singular value decomposition; numerical reconstruction; polytopic dynamic models; tensor HOSVD; tensor product dynamic models; Automation; Control design; Informatics; Lightweight structures; Linear matrix inequalities; Matrix decomposition; Nonlinear dynamical systems; Singular value decomposition; Tensile stress; Vectors; HOSVD; Polytopic dynamic model; TP models; linear matrix inequalities (LMI);
Conference_Titel :
Computational Intelligence and Intelligent Informatics, 2007. ISCIII '07. International Symposium on
Conference_Location :
Agadir
Print_ISBN :
1-4244-1158-0
Electronic_ISBN :
1-4244-1158-0
DOI :
10.1109/ISCIII.2007.367372
