Energetic decomposition of Distributed Systems with Moving Material Domains: the port-Hamiltonian model of Fluid-Structure Interaction
Federico Califano, Ramy Rashad, Frederic P. Schuller, Stefano, Stramigioli
TL;DR
This paper explores the geometric structure of port-Hamiltonian models for distributed systems with moving material domains, providing a foundational framework for analyzing fluid-structure interactions.
Contribution
It introduces the geometric structure underlying port-Hamiltonian models for systems with moving material domains, advancing the theoretical understanding of fluid-structure interaction models.
Findings
Provides a geometric framework for port-Hamiltonian models with moving domains
Enhances understanding of fluid-structure interaction modeling
Lays groundwork for future analysis and control of such systems
Abstract
We introduce the geometric structure underlying the port-Hamiltonian models for distributed parameter systems exhibiting moving material domains.
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