This letter deals with interconnection and damping assignment for discrete-time port-Hamiltonian systems. Based on a novel state representation, suitably shaped to address energy-based control design, the nonlinear discrete-time controller is characterized and the solution is explicitly computed in the linear case. The design worked out on the exact sampled-data model of a mechanical system confirms the effectiveness of the controller.
Dettaglio pubblicazione
2020, IEEE CONTROL SYSTEMS LETTERS, Pages 103-108 (volume: 5)
Stabilization of discrete port-hamiltonian dynamics via interconnection and damping assignment (01a Articolo in rivista)
Moreschini Alessio, Mattioni Mattia, Monaco Salvatore, Normand-Cyrot Dorothee
Gruppo di ricerca: Nonlinear Systems and Control