In the present paper we elaborate on the underlying Hamiltonian structure of interconnected energy-conserving physical systems. It is shown that a power-conserving interconnection of port-controlled generalized Hamiltonian systems leads to an implicit generalized Hamiltonian system, and a power-conserving partial interconnection to an implicit port-controlled Hamiltonian system. The crucial concept is the notion of a (generalized) Dirac structure, defined on the space of energy-variables or on the product of the space of energy-variables and the space of flow-variables in the port-controlled case. Three natural representations of generalized Dirac structures are treated. Necessary and sufficient conditions for closedness (or integrability) ...
Network modeling of complex physical systems leads to a class of nonlinear systems called port-Hamil...
International audienceThis article discusses the Dirac structure and the state-space representation ...
Abstract: In this paper it is shown how the port-Hamiltonian formulation of distributed-parameter sy...
In the present paper we elaborate on the underlying Hamiltonian structure of interconnected energy-c...
In the present paper we elaborate on the underlying Hamiltonian structure of interconnected energy-c...
Geometric structures behind a variety of physical systems stemming from mechanics, electromagnetism ...
Port-based network modeling of a large class of complex physical systems leads to dynamical systems ...
Network modeling of complex physical systems leads to a class of nonlinear systems, called Port-Cont...
An energy balance equation with respect to a control contact system provides port outputs which are ...
Key feature of Dirac structures (as opposed to Poisson or symplectic structures) is the fact that th...
An energy balance equation with respect to a control contact system provides port outputs which are ...
An energy balance equation with respect to a control contact system provides port outputs which are ...
Port-based network modeling of physical systems leads to a model class of nonlinear systems known as...
Network modeling of complex physical systems leads to a class of nonlinear systems called port-Hamil...
International audienceThis article discusses the Dirac structure and the state-space representation ...
Abstract: In this paper it is shown how the port-Hamiltonian formulation of distributed-parameter sy...
In the present paper we elaborate on the underlying Hamiltonian structure of interconnected energy-c...
In the present paper we elaborate on the underlying Hamiltonian structure of interconnected energy-c...
Geometric structures behind a variety of physical systems stemming from mechanics, electromagnetism ...
Port-based network modeling of a large class of complex physical systems leads to dynamical systems ...
Network modeling of complex physical systems leads to a class of nonlinear systems, called Port-Cont...
An energy balance equation with respect to a control contact system provides port outputs which are ...
Key feature of Dirac structures (as opposed to Poisson or symplectic structures) is the fact that th...
An energy balance equation with respect to a control contact system provides port outputs which are ...
An energy balance equation with respect to a control contact system provides port outputs which are ...
Port-based network modeling of physical systems leads to a model class of nonlinear systems known as...
Network modeling of complex physical systems leads to a class of nonlinear systems called port-Hamil...
International audienceThis article discusses the Dirac structure and the state-space representation ...
Abstract: In this paper it is shown how the port-Hamiltonian formulation of distributed-parameter sy...
Add to ORKG