The port-based approach that can be represented by bond graphs or iconic diagrams optimally supports a multidomain-modeling context. This approach is for mechanical, hydraulic and electrical systems clearly described in the literature. However, thermal systems or in particular thermo-fluid systems can be described by various port-based approaches. Some of these approaches are discussed
In this paper, a systematic procedure for the definition of the dynamical model in port-Hamiltonian ...
International audienceThe paper presents a pseudo bond graph model of a thermo-hydraulic system whic...
This paper describes a new library designed for modeling convective flows in physical systems. The l...
In this chapter the basics of the port-based approach are introduced as well as their natural notati...
In this Chapter we present some detailed examples of modelling in several domains using port and por...
Port-based modeling of dynamic systems is the topic of the first chapter of the book that will be on...
In this semester project a library for hydraulic systems based on bond graphs in dymola/-modelica is...
In this paper, we present the physical foundations and the development of the thermodynamic part of ...
In the current paper, a domain independent conduction model compatible for multi-physical system dyn...
This is a paper about how to write a hydraulic network into a Port-Hamiltonian form using three diff...
Abstract—Port-based network modeling of a large class of complex physical systems leads to dynamical...
The main advantage of the use of the Bond Graphs method and State Equations for modeling energy syst...
Energy exchange is a major foundation of the dynamics of physical systems, and, hence, in the study ...
Physical systems theory describes systems which obey the elementary principles of macrophysics (e. g...
This article discusses the Modelica.Fluid library that has been included in the Modelica Standard Li...
In this paper, a systematic procedure for the definition of the dynamical model in port-Hamiltonian ...
International audienceThe paper presents a pseudo bond graph model of a thermo-hydraulic system whic...
This paper describes a new library designed for modeling convective flows in physical systems. The l...
In this chapter the basics of the port-based approach are introduced as well as their natural notati...
In this Chapter we present some detailed examples of modelling in several domains using port and por...
Port-based modeling of dynamic systems is the topic of the first chapter of the book that will be on...
In this semester project a library for hydraulic systems based on bond graphs in dymola/-modelica is...
In this paper, we present the physical foundations and the development of the thermodynamic part of ...
In the current paper, a domain independent conduction model compatible for multi-physical system dyn...
This is a paper about how to write a hydraulic network into a Port-Hamiltonian form using three diff...
Abstract—Port-based network modeling of a large class of complex physical systems leads to dynamical...
The main advantage of the use of the Bond Graphs method and State Equations for modeling energy syst...
Energy exchange is a major foundation of the dynamics of physical systems, and, hence, in the study ...
Physical systems theory describes systems which obey the elementary principles of macrophysics (e. g...
This article discusses the Modelica.Fluid library that has been included in the Modelica Standard Li...
In this paper, a systematic procedure for the definition of the dynamical model in port-Hamiltonian ...
International audienceThe paper presents a pseudo bond graph model of a thermo-hydraulic system whic...
This paper describes a new library designed for modeling convective flows in physical systems. The l...