State dependent matrices and balanced energy functions for nonlinear systems

Jacquelien M.A. Scherpen; W. Steven Gray

State dependent matrices and balanced energy functions for nonlinear systems

Jacquelien M.A. Scherpen, W. Steven Gray

Engineering and Technology Institute Groningen

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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Abstract

The nonlinear extension of the balancing procedure requires the case of state dependent quadratic forms for the energy functions, i.e., the nonlinear extensions of the linear Gramians are state dependent matrices. These extensions have some interesting ambiguities that do not occur in the linear case. Namely, the choice of the state dependent matrix in the semi-quadratic form is not unique, and therefore may result in different eigenvalues. The introduction of so-called null-matrices is useful for the analysis of this problem. Furthermore, the concept of norm-preserving transformations provides further insight on these ambiguities. This paper provides a detailed analysis of this phenomenon and outlines some future directions for research.

Original language	English
Title of host publication	Proceedings of the MTNS 2000
Publisher	University of Groningen, Research Institute of Technology and Management
Number of pages	8
Publication status	Published - 2000

Keywords

nonlinear systems
balanced realizations
energy functions
state dependent matrices
state dependent quadratic forms

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title = "State dependent matrices and balanced energy functions for nonlinear systems",

abstract = "The nonlinear extension of the balancing procedure requires the case of state dependent quadratic forms for the energy functions, i.e., the nonlinear extensions of the linear Gramians are state dependent matrices. These extensions have some interesting ambiguities that do not occur in the linear case. Namely, the choice of the state dependent matrix in the semi-quadratic form is not unique, and therefore may result in different eigenvalues. The introduction of so-called null-matrices is useful for the analysis of this problem. Furthermore, the concept of norm-preserving transformations provides further insight on these ambiguities. This paper provides a detailed analysis of this phenomenon and outlines some future directions for research.",

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AU - Scherpen, Jacquelien M.A.

AU - Gray, W. Steven

N1 - Relation: http://www.rug.nl/tbk/onderzoek/onderzoeksinstituten/itm/index Rights: University of Groningen, Research Institute of Technology and Management

PY - 2000

Y1 - 2000

N2 - The nonlinear extension of the balancing procedure requires the case of state dependent quadratic forms for the energy functions, i.e., the nonlinear extensions of the linear Gramians are state dependent matrices. These extensions have some interesting ambiguities that do not occur in the linear case. Namely, the choice of the state dependent matrix in the semi-quadratic form is not unique, and therefore may result in different eigenvalues. The introduction of so-called null-matrices is useful for the analysis of this problem. Furthermore, the concept of norm-preserving transformations provides further insight on these ambiguities. This paper provides a detailed analysis of this phenomenon and outlines some future directions for research.

AB - The nonlinear extension of the balancing procedure requires the case of state dependent quadratic forms for the energy functions, i.e., the nonlinear extensions of the linear Gramians are state dependent matrices. These extensions have some interesting ambiguities that do not occur in the linear case. Namely, the choice of the state dependent matrix in the semi-quadratic form is not unique, and therefore may result in different eigenvalues. The introduction of so-called null-matrices is useful for the analysis of this problem. Furthermore, the concept of norm-preserving transformations provides further insight on these ambiguities. This paper provides a detailed analysis of this phenomenon and outlines some future directions for research.

KW - nonlinear systems

KW - balanced realizations

KW - energy functions

KW - state dependent matrices

KW - state dependent quadratic forms

M3 - Conference contribution

BT - Proceedings of the MTNS 2000

PB - University of Groningen, Research Institute of Technology and Management

ER -

State dependent matrices and balanced energy functions for nonlinear systems

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Keywords

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