The port-Hamiltonian modelling framework is extended to a class of systems containing memristive elements and phenomena. First, the concept of memristance is generalised to the same generic level as the port-Hamiltonian framework. Second, the underlying Dirac structure is augmented with a memristive port. The inclusion of memristive elements in the port-Hamiltonian framework turns out to be almost as straightforward as the inclusion of resistive elements. Although a memristor is a resistive element, it is also a dynamic element since the associated Ohmian laws are rather expressed in terms of differential equations. This means that the state space manifold, as naturally defined by the storage elements, is augmented by the states associated ...
It is shown how port-based modeling of lumped-parameter complex physical systems (multi-body systems...
Port-based network modeling of a large class of complex physical systems leads to dynamical systems ...
In this Chapter we present some detailed examples of modelling in several domains using port and por...
The port-Hamiltonian modelling framework is extended to a class of systems containing memristive ele...
In this paper, we consider memristors, meminductors, and memcapacitors and their properties as port-...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
The theory of port-Hamiltonian systems provides a framework for the geometric description of network...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
Geometric structures behind a variety of physical systems stemming from mechanics, electromagnetism ...
It is shown how port-based modeling of lumped-parameter complex physical systems (multi-body systems...
It is shown how port-based modeling of lumped-parameter complex physical systems (multi-body systems...
Port-based network modeling of a large class of complex physical systems leads to dynamical systems ...
In this Chapter we present some detailed examples of modelling in several domains using port and por...
The port-Hamiltonian modelling framework is extended to a class of systems containing memristive ele...
In this paper, we consider memristors, meminductors, and memcapacitors and their properties as port-...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
The theory of port-Hamiltonian systems provides a framework for the geometric description of network...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
Geometric structures behind a variety of physical systems stemming from mechanics, electromagnetism ...
It is shown how port-based modeling of lumped-parameter complex physical systems (multi-body systems...
It is shown how port-based modeling of lumped-parameter complex physical systems (multi-body systems...
Port-based network modeling of a large class of complex physical systems leads to dynamical systems ...
In this Chapter we present some detailed examples of modelling in several domains using port and por...