Abstract Dissipative Hamiltonian Differential-Algebraic Equations Are Everywhere

Hans Zwart; Volker Mehrmann

doi:10.52825/dae-p.v2i.957

Abstract Dissipative Hamiltonian Differential-Algebraic Equations Are Everywhere

Hans Zwart, Volker Mehrmann

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Abstract

In this paper we study the representation of partial differential equations (PDEs) as abstract differential-algebraic equations (DAEs) with dissipative Hamiltonian structure (adHDAEs). We show that these systems not only arise when there are constraints coming from the underlying physics, but many standard PDE models can be seen as an adHDAE on an extended state space. This reflects the fact that models often include closure relations and structural properties. We present a unifying operator theoretic approach to analyze the properties of such operator equations and illustrate this by several applications.

Original language	English
Number of pages	36
Journal	DAE Panel
Volume	2
DOIs	https://doi.org/10.52825/dae-p.v2i.957
Publication status	Published - 23 Aug 2024

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title = "Abstract Dissipative Hamiltonian Differential-Algebraic Equations Are Everywhere",

abstract = "In this paper we study the representation of partial differential equations (PDEs) as abstract differential-algebraic equations (DAEs) with dissipative Hamiltonian structure (adHDAEs). We show that these systems not only arise when there are constraints coming from the underlying physics, but many standard PDE models can be seen as an adHDAE on an extended state space. This reflects the fact that models often include closure relations and structural properties. We present a unifying operator theoretic approach to analyze the properties of such operator equations and illustrate this by several applications.",

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AU - Mehrmann, Volker

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N2 - In this paper we study the representation of partial differential equations (PDEs) as abstract differential-algebraic equations (DAEs) with dissipative Hamiltonian structure (adHDAEs). We show that these systems not only arise when there are constraints coming from the underlying physics, but many standard PDE models can be seen as an adHDAE on an extended state space. This reflects the fact that models often include closure relations and structural properties. We present a unifying operator theoretic approach to analyze the properties of such operator equations and illustrate this by several applications.

AB - In this paper we study the representation of partial differential equations (PDEs) as abstract differential-algebraic equations (DAEs) with dissipative Hamiltonian structure (adHDAEs). We show that these systems not only arise when there are constraints coming from the underlying physics, but many standard PDE models can be seen as an adHDAE on an extended state space. This reflects the fact that models often include closure relations and structural properties. We present a unifying operator theoretic approach to analyze the properties of such operator equations and illustrate this by several applications.

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M3 - Article

SN - 2939-9084

VL - 2

JO - DAE Panel

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Abstract Dissipative Hamiltonian Differential-Algebraic Equations Are Everywhere

Abstract

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