Stability analysis of dynamical systems for minor and principal component analysis

Author

Hasan, Mohammed A.

Author_Institution

Dept. of Electr. & Comput. Eng., Minnesota Univ., Duluth, MN

fYear

2006

fDate

14-16 June 2006

Abstract

Algorithms that extract the principal or minor components of a signal are widely used in signal processing and control applications. This paper explores new frameworks for generating learning rules for iteratively computing the principal and minor components (or subspaces) of a given matrix. Stability analysis using Lyapunov theory and La Salle invariance principle is provided to determine regions of attraction of these learning rules. Among many derivations, it is specifically shown that Oja´s rule and many variations of it are asymptotically globally stable. Lyapunov stability theory is also applied to weighted learning rules. Some of the essential features for the proposed MCA/PCA learning rules are that they are self normalized and can be applied to non-symmetric matrices. Exact solutions for some nonlinear dynamical systems are also provided

Keywords

control system analysis; invariance; iterative methods; learning systems; principal component analysis; stability; La Salle invariance principle; Lyapunov stability theory; MCA/PCA learning rules; Oja rule; iterative computing; minor component analysis; nonlinear dynamical systems; nonsymmetric matrices; principal component analysis; signal extraction; signal processing; stability analysis; Application software; Asymptotic stability; Iterative algorithms; Nonlinear dynamical systems; Principal component analysis; Process control; Signal processing; Signal processing algorithms; Stability analysis; Symmetric matrices;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference, 2006

Conference_Location

Minneapolis, MN

Print_ISBN

1-4244-0209-3

Electronic_ISBN

1-4244-0209-3

Type

conf

DOI

10.1109/ACC.2006.1657277

Filename

1657277