Extended Differential Balancing and Generalized Balancing for Nonlinear Dynamical Systems: (Extended Abstract)

Arijit Sarkar; Jacquelien M.A. Scherpen

Abstract

In this work, we introduced extended differential balancing, which is a model reduction approach for nonlinear dynamical systems in the contraction framework. We utilized the solutions of two time-varying LMIs to arrive at a balanced realization of the associated variational system to perform the truncation of less important states of the original system. One of the main contributions of the work is to show a computationally tractable way of performing model reduction providing tighter aprioiri error bounds in comparison with generalized differential balancing. On the other hand, we introduce generalized controllability function and generalized observability function for continuous-time stable nonlinear systems. We also propose a balanced realization for nonlinear port-Hamiltonian systems in which the generalized energy functions are balanced as well as the Hamiltonian of the corresponding system is in diagonal form. Moreover, the reduced order model obtained by truncation preserves the port-Hamiltonian structure.

Original language	English
Publication status	Published - 2022
Event	25th International Symposium on Mathematical Theory of Networks and Systems: MTNS 2022 - University of Bayreuth, Bayreuth, Germany Duration: 12-Sept-2022 → 16-Sept-2022 https://www.mtns2022.uni-bayreuth.de/en/index.html

Conference

Conference	25th International Symposium on Mathematical Theory of Networks and Systems
Abbreviated title	MTNS 2022
Country/Territory	Germany
City	Bayreuth
Period	12/09/2022 → 16/09/2022
Internet address	https://www.mtns2022.uni-bayreuth.de/en/index.html

Keywords

Large Scale Systems, Nonlinear Systems and Control

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title = "Extended Differential Balancing and Generalized Balancing for Nonlinear Dynamical Systems: (Extended Abstract) ",

abstract = "In this work, we introduced extended differential balancing, which is a model reduction approach for nonlinear dynamical systems in the contraction framework. We utilized the solutions of two time-varying LMIs to arrive at a balanced realization of the associated variational system to perform the truncation of less important states of the original system. One of the main contributions of the work is to show a computationally tractable way of performing model reduction providing tighter aprioiri error bounds in comparison with generalized differential balancing. On the other hand, we introduce generalized controllability function and generalized observability function for continuous-time stable nonlinear systems. We also propose a balanced realization for nonlinear port-Hamiltonian systems in which the generalized energy functions are balanced as well as the Hamiltonian of the corresponding system is in diagonal form. Moreover, the reduced order model obtained by truncation preserves the port-Hamiltonian structure. ",

keywords = "Large Scale Systems, Nonlinear Systems and Control",

author = "Arijit Sarkar and Scherpen, {Jacquelien M.A.}",

year = "2022",

language = "English",

note = "25th International Symposium on<br/>Mathematical Theory of Networks and Systems : MTNS 2022, MTNS 2022 ; Conference date: 12-09-2022 Through 16-09-2022",

url = "https://www.mtns2022.uni-bayreuth.de/en/index.html",

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TY - CONF

T1 - Extended Differential Balancing and Generalized Balancing for Nonlinear Dynamical Systems

T2 - 25th International Symposium on<br/>Mathematical Theory of Networks and Systems

AU - Sarkar, Arijit

AU - Scherpen, Jacquelien M.A.

PY - 2022

Y1 - 2022

N2 - In this work, we introduced extended differential balancing, which is a model reduction approach for nonlinear dynamical systems in the contraction framework. We utilized the solutions of two time-varying LMIs to arrive at a balanced realization of the associated variational system to perform the truncation of less important states of the original system. One of the main contributions of the work is to show a computationally tractable way of performing model reduction providing tighter aprioiri error bounds in comparison with generalized differential balancing. On the other hand, we introduce generalized controllability function and generalized observability function for continuous-time stable nonlinear systems. We also propose a balanced realization for nonlinear port-Hamiltonian systems in which the generalized energy functions are balanced as well as the Hamiltonian of the corresponding system is in diagonal form. Moreover, the reduced order model obtained by truncation preserves the port-Hamiltonian structure.

AB - In this work, we introduced extended differential balancing, which is a model reduction approach for nonlinear dynamical systems in the contraction framework. We utilized the solutions of two time-varying LMIs to arrive at a balanced realization of the associated variational system to perform the truncation of less important states of the original system. One of the main contributions of the work is to show a computationally tractable way of performing model reduction providing tighter aprioiri error bounds in comparison with generalized differential balancing. On the other hand, we introduce generalized controllability function and generalized observability function for continuous-time stable nonlinear systems. We also propose a balanced realization for nonlinear port-Hamiltonian systems in which the generalized energy functions are balanced as well as the Hamiltonian of the corresponding system is in diagonal form. Moreover, the reduced order model obtained by truncation preserves the port-Hamiltonian structure.

KW - Large Scale Systems, Nonlinear Systems and Control

M3 - Abstract

Y2 - 12 September 2022 through 16 September 2022