The main contribution of this paper is a procedure for the control by energy shaping via Casimir generation of infinite dimensional port-Hamiltonian systems based on a particular finite element approximation. The proposed approach is justified by the fact that the adopted spatial discretization technique is able to preserve Casimir functions in the closed-loop system when going from the distributed to the (approximated) lumped parameter system. Besides the intrinsic difficulties related to the large number of state variables, the finite element model is generally given in terms of a Dirac structure and is completely a-causal, which implies that the plant dynamics is not given in standard input-state-output form, but as a set of DAEs. Conseq...
This paper deals with the energy-balancing passivity-based control of linear, lossless, distributed ...
This paper is concerned with the energy shaping of 1D linear boundary controlled port-Hamiltonian sy...
The main contribution of this paper is an energy shaping procedure for the stabilization of forced e...
The main contribution of this paper is a procedure for the control by energy shaping via Casimir gen...
The main contribution of this paper is a procedure for the control by energy shaping via Casimir ge...
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, some new results concerning the boundary control of distributed parameter ...
In this paper, some new results concerning the boundary control of distributed parameter systems in ...
In this paper, some new results concerning the boundary control of distributed parameter systems in ...
This paper deals with the stabilization via Casimir generation and energy shaping of linear, lossles...
This paper is concerned with the energy shaping of 1-D linear boundary controlled port-Hamiltonian s...
This paper deals with the energy-balancing passivity-based control of linear, lossless, distributed ...
This paper is concerned with the energy shaping of 1D linear boundary controlled port-Hamiltonian sy...
The main contribution of this paper is an energy shaping procedure for the stabilization of forced e...
The main contribution of this paper is a procedure for the control by energy shaping via Casimir gen...
The main contribution of this paper is a procedure for the control by energy shaping via Casimir ge...
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, some new results concerning the boundary control of distributed parameter ...
In this paper, some new results concerning the boundary control of distributed parameter systems in ...
In this paper, some new results concerning the boundary control of distributed parameter systems in ...
This paper deals with the stabilization via Casimir generation and energy shaping of linear, lossles...
This paper is concerned with the energy shaping of 1-D linear boundary controlled port-Hamiltonian s...
This paper deals with the energy-balancing passivity-based control of linear, lossless, distributed ...
This paper is concerned with the energy shaping of 1D linear boundary controlled port-Hamiltonian sy...
The main contribution of this paper is an energy shaping procedure for the stabilization of forced e...