Port‐Hamiltonian representation for pdes with second‐order derivatives in the energy density

Markus Schöberl; Kurt Schlacher

Port‐Hamiltonian representation for pdes with second‐order derivatives in the energy density

Institute of Control Systems

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

Abstract

In this contribution we consider a port-Hamiltonian setting for partial differential equations. A crucial property of this system class is the property to be able to link a power balance relation to the structure of the equations. However, one has to take into account also the effects of energy flows via the boundary. This is straightforward when the Hamiltonian depends on derivative variables of first order, e.g. by using integration by parts. If second-order derivatives appear then integration by parts cannot be used without due care, thus we suggest an approach by using the so-called Cartan-form. We visualize the derivation of a power balance relation by using the Kirchhoff plate as an example.

Original language	English
Title of host publication	Proceedings in Applied Mathematics and Mechanics (PAMM)
Publisher	Wiley VCH-Verlag
Pages	19-22
Number of pages	4
Volume	16
Publication status	Published - Oct 2016

Publication series

Name	Proceedings in Applied Mathematics and Mecha

Fields of science

202017 Embedded systems
203015 Mechatronics
101028 Mathematical modelling
202 Electrical Engineering, Electronics, Information Engineering
202003 Automation
202027 Mechatronics
202034 Control engineering

JKU Focus areas

Mechatronics and Information Processing

Cite this

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title = "Port‐Hamiltonian representation for pdes with second‐order derivatives in the energy density",

abstract = "In this contribution we consider a port-Hamiltonian setting for partial differential equations. A crucial property of this system class is the property to be able to link a power balance relation to the structure of the equations. However, one has to take into account also the effects of energy flows via the boundary. This is straightforward when the Hamiltonian depends on derivative variables of first order, e.g. by using integration by parts. If second-order derivatives appear then integration by parts cannot be used without due care, thus we suggest an approach by using the so-called Cartan-form. We visualize the derivation of a power balance relation by using the Kirchhoff plate as an example.",

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Port‐Hamiltonian representation for pdes with second‐order derivatives in the energy density. / Schöberl, Markus ; Schlacher, Kurt.
Proceedings in Applied Mathematics and Mechanics (PAMM). Vol. 16 Wiley VCH-Verlag, 2016. p. 19-22 (Proceedings in Applied Mathematics and Mecha).

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

TY - GEN

T1 - Port‐Hamiltonian representation for pdes with second‐order derivatives in the energy density

AU - Schöberl, Markus

AU - Schlacher, Kurt

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N2 - In this contribution we consider a port-Hamiltonian setting for partial differential equations. A crucial property of this system class is the property to be able to link a power balance relation to the structure of the equations. However, one has to take into account also the effects of energy flows via the boundary. This is straightforward when the Hamiltonian depends on derivative variables of first order, e.g. by using integration by parts. If second-order derivatives appear then integration by parts cannot be used without due care, thus we suggest an approach by using the so-called Cartan-form. We visualize the derivation of a power balance relation by using the Kirchhoff plate as an example.

AB - In this contribution we consider a port-Hamiltonian setting for partial differential equations. A crucial property of this system class is the property to be able to link a power balance relation to the structure of the equations. However, one has to take into account also the effects of energy flows via the boundary. This is straightforward when the Hamiltonian depends on derivative variables of first order, e.g. by using integration by parts. If second-order derivatives appear then integration by parts cannot be used without due care, thus we suggest an approach by using the so-called Cartan-form. We visualize the derivation of a power balance relation by using the Kirchhoff plate as an example.

M3 - Conference proceedings

VL - 16

T3 - Proceedings in Applied Mathematics and Mecha

SP - 19

EP - 22

BT - Proceedings in Applied Mathematics and Mechanics (PAMM)

PB - Wiley VCH-Verlag

ER -