Discrete-Time modeling of hamiltonian systems

Yaprak Yalçin; Leyla Gören Sümer; Salman Kurtulan

doi:10.3906/elk-1212-23

Discrete-Time modeling of hamiltonian systems

Yaprak Yalçin^*, Leyla Gören Sümer, Salman Kurtulan

^*Corresponding author for this work

Department of Control and Automation Engineering

Istanbul Technical University

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

The problem of discrete-time modeling of the lumped-parameter Hamiltonian systems is considered for engineering applications. Hence, a novel gradient-based method is presented, exploiting the discrete gradient concept and the forward Euler discretization under the assumption of the continuous Hamiltonian model is known. It is proven that the proposed discrete-time model structure defines a symplectic difference system and has the energy-conserving property under some conditions. In order to provide alternate discrete-time models, 3 different discrete-gradient definitions are given. The proposed models are convenient for the design of sampled-data controllers. All of the models are considered for several well-known Hamiltonian systems and the simulation results are demonstrated comparatively.

Original language	English
Pages (from-to)	149-170
Number of pages	22
Journal	Turkish Journal of Electrical Engineering and Computer Sciences
Volume	23
Issue number	1
DOIs	https://doi.org/10.3906/elk-1212-23
Publication status	Published - 1 Jan 2015

Bibliographical note

Publisher Copyright:
© TÜBITAK.

Keywords

Discrete gradient
Discrete-time control model
Hamiltonian systems

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AU - Yalçin, Yaprak

AU - Gören Sümer, Leyla

AU - Kurtulan, Salman

N1 - Publisher Copyright: © TÜBITAK.

PY - 2015/1/1

Y1 - 2015/1/1

N2 - The problem of discrete-time modeling of the lumped-parameter Hamiltonian systems is considered for engineering applications. Hence, a novel gradient-based method is presented, exploiting the discrete gradient concept and the forward Euler discretization under the assumption of the continuous Hamiltonian model is known. It is proven that the proposed discrete-time model structure defines a symplectic difference system and has the energy-conserving property under some conditions. In order to provide alternate discrete-time models, 3 different discrete-gradient definitions are given. The proposed models are convenient for the design of sampled-data controllers. All of the models are considered for several well-known Hamiltonian systems and the simulation results are demonstrated comparatively.

AB - The problem of discrete-time modeling of the lumped-parameter Hamiltonian systems is considered for engineering applications. Hence, a novel gradient-based method is presented, exploiting the discrete gradient concept and the forward Euler discretization under the assumption of the continuous Hamiltonian model is known. It is proven that the proposed discrete-time model structure defines a symplectic difference system and has the energy-conserving property under some conditions. In order to provide alternate discrete-time models, 3 different discrete-gradient definitions are given. The proposed models are convenient for the design of sampled-data controllers. All of the models are considered for several well-known Hamiltonian systems and the simulation results are demonstrated comparatively.

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KW - Discrete-time control model

KW - Hamiltonian systems

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JO - Turkish Journal of Electrical Engineering and Computer Sciences

JF - Turkish Journal of Electrical Engineering and Computer Sciences

IS - 1

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Discrete-Time modeling of hamiltonian systems

Abstract

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Keywords

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