This paper presents the use of the memristor as a new element for designing passivity-based controllers. From the port-Hamiltonian description of the electrical circuits with memristors, a target dynamics is assigned to the matching equation proposed by the methodology known as Interconnection and Damping Assignment-Passivity-based Control. The inclusion of the memristor element extends the closed loop dynamics and it results in an extra term in the control algorithm that can be seen as a state-modulated gain. Two mechanical examples, in the form of a position control systems are included to show possible applications.</p
The Interconnection and Damping Assignment passivity-based control method for port-controlled Hamilt...
The port-Hamiltonian modelling framework is extended to a class of systems containing memristive ele...
Passivity-based control (PBC) is a well-established technique that has shown to be very powerful to ...
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...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
The Interconnection and Damping Assignment passivity-based control method for port-controlled Hamilt...
A dynamic extension for position feedback of port-Hamiltonian mechanical systems is studied. First w...
A dynamic extension for position feedback of port-Hamiltonian mechanical systems is studied. First w...
A dynamic extension for position feedback of port-Hamiltonian mechanical systems is studied. First w...
The Interconnection and Damping Assignment passivity-based control method for port-controlled Hamilt...
The port-Hamiltonian modelling framework is extended to a class of systems containing memristive ele...
Passivity-based control (PBC) is a well-established technique that has shown to be very powerful to ...
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...
This paper presents the use of the memristor as a new element for designing passivity-based controll...
The Interconnection and Damping Assignment passivity-based control method for port-controlled Hamilt...
A dynamic extension for position feedback of port-Hamiltonian mechanical systems is studied. First w...
A dynamic extension for position feedback of port-Hamiltonian mechanical systems is studied. First w...
A dynamic extension for position feedback of port-Hamiltonian mechanical systems is studied. First w...
The Interconnection and Damping Assignment passivity-based control method for port-controlled Hamilt...
The port-Hamiltonian modelling framework is extended to a class of systems containing memristive ele...
Passivity-based control (PBC) is a well-established technique that has shown to be very powerful to ...