This chapter presents the formulation of distributed parameter systems in terms of port-Hamiltonian system. In the first part it is shown, for different examples of physical systems defined on one-dimensional spatial domains, how the Dirac structure and the port-Hamiltonian formulation arise from the description of distributed parameter systems as systems of conservation laws. In the second part we consider systems of two conservation laws, describing two physical domains in reversible interaction, and it is shown that they may be formulated as port-Hamiltonian systems defined on a canonical Dirac structure called canonical Stokes-Dirac structure. In the third part, this canonical Stokes-Dirac structure is generalized for the examples of th...
Abstract In this paper, some new results concerning the modeling of distributed parameter systems i...
We show how the port-Hamiltonian formulation of distributed parameter systems, which incorporates en...
Port-based network modeling of physical systems leads to a model class of nonlinear systems known as...
This chapter presents the formulation of distributed parameter systems in terms of port-Hamiltonian...
In this paper, some new results concerning the modeling of distributed parameter systems in port Ham...
Geometric structures behind a variety of physical systems stemming from mechanics, electromagnetism ...
In this paper, some new results concerning the modeling of distributed parameter systems in port Ham...
In this paper, some new results concerning the modeling and control of distributed parameter systems...
In this paper, some new results concerning the modeling and control of distributed parameter systems...
Abstract: In this paper it is shown how the port-Hamiltonian formulation of distributed-parameter sy...
Abstract: In this paper it is shown how the port-Hamiltonian formulation of distributed-parameter sy...
The theory of port-Hamiltonian systems provides a framework for the geometric description of network...
A port controlled Hamiltonian formulation of the dynamics of distributed parameter systems is presen...
Abstract In this paper, some new results concerning the modeling of distributed parameter systems i...
We show how the port-Hamiltonian formulation of distributed parameter systems, which incorporates en...
Port-based network modeling of physical systems leads to a model class of nonlinear systems known as...
This chapter presents the formulation of distributed parameter systems in terms of port-Hamiltonian...
In this paper, some new results concerning the modeling of distributed parameter systems in port Ham...
Geometric structures behind a variety of physical systems stemming from mechanics, electromagnetism ...
In this paper, some new results concerning the modeling of distributed parameter systems in port Ham...
In this paper, some new results concerning the modeling and control of distributed parameter systems...
In this paper, some new results concerning the modeling and control of distributed parameter systems...
Abstract: In this paper it is shown how the port-Hamiltonian formulation of distributed-parameter sy...
Abstract: In this paper it is shown how the port-Hamiltonian formulation of distributed-parameter sy...
The theory of port-Hamiltonian systems provides a framework for the geometric description of network...
A port controlled Hamiltonian formulation of the dynamics of distributed parameter systems is presen...
Abstract In this paper, some new results concerning the modeling of distributed parameter systems i...
We show how the port-Hamiltonian formulation of distributed parameter systems, which incorporates en...
Port-based network modeling of physical systems leads to a model class of nonlinear systems known as...